identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
4F96B19AE54A59258576E4AC6F1BA2EF.text	4F96B19AE54A59258576E4AC6F1BA2EF.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Colletotrichum abelmoschi Fallahi, Jayawar. & K. D. Hyde 2025	<div><p>Colletotrichum abelmoschi Fallahi, Jayawar. &amp; K. D. Hyde sp. nov.</p><p>Fig. 2</p><p>Etymology.</p><p>‘ abelmoschi ’ refers to the host plant genus where the fungus was isolated.</p><p>Description.</p><p>Fungus causes small, dark brown to black lesions on the okra stems. On the leaves, infection results in angular to irregular-shaped dark brown or black spots that expand into larger areas of necrosis. A yellow halo often surrounds these spots. Sexual morph not observed. Conidiomata acervular, semi-immersed, dark brown, bearing conidial masses. Conidiophore hyaline to pale brown, cylindrical or subcylindrical, branched or unbranched, septate, smooth-walled, 11–27 × 2–4.5 μm (mean = 19 × 3.3 μm, n = 30). Conidiogenous cells cylindrical or doliiform, unbranched, guttulate, 6–18 × 2.2–4 μm (mean = 11.5 × 3 μm, n = 30). Conidia aseptate, straight, cylindrical, the apex and base rounded or tapering at base, guttulate, 8.6–13.7 × 4.2–5.8 μm (mean = 12 × 5 μm, n = 40). Appressoria ellipsoidal to obovate, clavate, entire margin, regular shape, or slightly irregular, brown to dark brown 4–12 × 5–7 μm (mean = 8 × 6 μm, n = 20). Chlamydospores and Setae are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 60 mm in diameter after 7 days of growth at 25 ° C in the dark, cottony, circular shape, dull surface, entire edge, well-defined margin, with medium density. Upper view white to light grey. Reverse primrose, with no diffusing pigment.</p><p>Material examined.</p><p>Thailand • Sakon Nakhon Province,  Mueang Sakon Nakhon District, on leaf of okra ( Abelmoschus esculentus), February 2023, Maryam Fallahi, dried culture MF 148-1 (MFLU 24-0237, holotype), ex-holotype culture, MFLUCC 24-0239  •   ibid., on stem of okra ( Abelmoschus esculentus), February 2023, Maryam Fallahi, dried culture MF 148 (MFLU 24-0238), living culture, MFLUCC 24-0256  .</p><p>Notes.</p><p>Phylogenetic analyses showed that strains MFLUCC 24-0239 and MFLUCC 24-0256 form a distinct subclade in the  Colletotrichum gloeosporioides species complex, basal to the subclade containing  C. tropicale and  C. makassarense with 58 % ML, 92 % MP bootstrap support, and 0.95 BYPP (Fig. 1) and are introduced as a new species, namely  Colletotrichum abelmoschi . The base pair differences between  C. abelmoschi (MFLUCC 24-0239, holotype),  C. tropicale (CBS 124949, holotype), and  C. makassarense (CBS 143664, ex-type) are presented in Table 2. Based on the morphology mentioned in Table 3,  Colletotrichum abelmoschi (MFLUCC 24-0239) is different from  C. tropicale (CBS 124949, holotype) and  C. makassarense (CBS 143664) (Rojas et al. 2010; de Silva et al. 2019).  Colletotrichum abelmoschi produced slightly narrower conidia than  C. tropicale (CBS 124949) with an L / W ratio = 2.4 (8.6–13.7 × 4.2–5.8 μm in  Colletotrichum abelmoschi vs. 10.2–12.7 × 8.2–11.2 μm in  C. tropicale (CBS 124949)). Moreover, in comparison to  C. makassarense,  Colletotrichum abelmoschi produced slightly shorter conidia (8.6–13.7 × 4.2–5.8 μm in  Colletotrichum abelmoschi (MFLUCC 24-0239) vs. 13–15 × 4.5–5 μm in  C. makassarense (CBS 143664)) and conidiogenous cells (6–18 × 2.2–4 μm in  Colletotrichum abelmoschi (MFLUCC 24-0239) vs. 7–25 × 3–4 μm in  C. makassarense (CBS 143664)). There are limited reports on  Colletotrichum species associated with okra.  Colletotrichum plurivorum was identified as the primary causal agent of anthracnose on okra in Brazil (Batista et al. 2020). Shi et al. (2019) reported the presence of  C. gloeosporioides causing anthracnose disease on okra in China (Shi et al. 2019). Based on morphology and multi-gene analysis,  Colletotrichum abelmoschi is introduced as a new species on okra.</p></div>	https://treatment.plazi.org/id/4F96B19AE54A59258576E4AC6F1BA2EF	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
8222FD1101E9561A9B02394AB291BE69.text	8222FD1101E9561A9B02394AB291BE69.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Colletotrichum Corda	<div><p>Colletotrichum Corda, Deutschlands Flora, Abt. III. Die Pilze Deutschlands. 3 (12): 41; (1831).</p><p>Notes.</p><p>This study describes five well-characterized species of  Colletotrichum:  C. fructicola,  C. makassarense,  C. siamense,  C. plurivorum, and  C. spaethianum, and introduces one novel species,  Colletotrichum abelmoschi .</p></div>	https://treatment.plazi.org/id/8222FD1101E9561A9B02394AB291BE69	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
044C302DC094527583959218F07F7627.text	044C302DC094527583959218F07F7627.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Colletotrichum fructicola Prihast., L. Cai & K. D. Hyde	<div><p>Colletotrichum fructicola Prihast., L. Cai &amp; K. D. Hyde, Fungal Diversity 39: 96 (2009)</p><p>Fig. 3</p><p>Description.</p><p>Pathogenic to jackfruit ( Artocarpus heterophyllus) and causes brown leaf spots and anthracnose on the foliage. Sexual morph not observed. Acervulus semi-immersed. Conidiophores reduced to conidiogenous cells. Conidia hyaline, cylindrical, with rounded apices, 9–15 × 3–6 µm (mean = 13 × 4.6 μm, n = 40). Appressoria brown to dark brown, clavate, ovoid, and slightly irregular or regular in shape, 8–10 × 4–8 µm (mean = 8 × 4.5 μm, n = 20). Chlamydospores and Setae are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 75 mm in diameter after 7 days of growth at 25 ° C in the dark, cottony and circular with a dull surface and well-defined margin with medium density. The upper side is pale olivaceous grey in the center, smoke grey in the middle, and white at the margin. The reverse side shows circles of dull green with a greenish-grey color and a primrose margin.</p><p>Material examined.</p><p>Thailand • Chiang Rai, Phan District,  Sai Khao, on the leaf of jackfruit ( Artocarpus heterophyllus), January 2023, Maryam Fallahi, dried culture MF 57-3 (MFLU 24-0241), living culture MFLUCC 24-0240  .</p><p>Notes.</p><p>Based on phylogenetic analysis, strain MFLUCC 24-0240 clustered in the same subclade as  Colletotrichum fructicola (ICMP 18581, ex-type) with 91 % ML, 91 % MP bootstrap support, and 1.0 BYPP (Fig. 1). The base pair differences between  C. fructicola (ICMP 18581, ex-type) and  C. fructicola (MFLUCC 24-0240) revealed no differences in ITS, gapdh, chs- 1, act, and tub 2.  Colletotrichum fructicola (MFLUCC 24-0240) is similar to  C. fructicola (MFLU 090228, holotype), although it produces slightly wider conidia with an L / W ratio of 2.8 (9–15 × 3–6 µm in  C. fructicola (MFLUCC 24-0240) vs. 9.7–14 × 3–4.3 μm in  C. fructicola (MFLU 090228)) (Prihastuti et al. 2009).  Colletotrichum fructicola has an extensive host range and geographical distribution (Weir et al. 2012; Norphanphoun and Hyde 2023). It was originally reported from coffee berries in Thailand (Prihastuti et al. 2009) and causes anthracnose, bitter rot, and leaf-spotting diseases in a wide range of woody or herbaceous plants (Bragard et al. 2021).  Colletotrichum fructicola is associated with jackfruit anthracnose worldwide, especially in Thailand (Borges et al. 2023).  Colletotrichum artocarpicola and  C. gloeosporioides have been reported from jackfruit in northern Thailand (Bhunjun et al. 2019). In this study,  C. fructicola was isolated from jackfruit and described as a new host record in northern Thailand.</p></div>	https://treatment.plazi.org/id/044C302DC094527583959218F07F7627	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
7F9182B2310B5F0DBBA32CBE93F2775C.text	7F9182B2310B5F0DBBA32CBE93F2775C.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Colletotrichum makassarense D. D. de Silva, Crous & P. W. J. Taylor	<div><p>Colletotrichum makassarense D. D. de Silva, Crous &amp; P. W. J. Taylor, IMA Fungus 10: 23 (2019)</p><p>Fig. 4</p><p>Description.</p><p>Pathogenic to tamarind ( Tamarindus indica) and causes brown leaf spots on leaves. Sexual morph not observed. Conidiomata acervular, forming abundantly on CLA media, producing orange conidial masses. Conidiophores subcylindrical or subcylindrical, septate, hyaline, smooth, branched. Conidiogenous cells cylindrical, branched, monoblastic, and 7–30 × 1.5–3 μm. Conidia straight, guttulate, subcylindrical, hyaline, aseptate, apex rounded and slightly tapering at the base, 12–14.5 × 4–5.4 μm (mean = 13 × 4.7 μm, n = 40). Appressoria of diverse shape, lobate, brown to dark brown, irregular margin, and 5–12.5 × 4–10 μm (mean = 8 × 7 μm, n = 20). Chlamydospores and setae are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 60 mm in diameter after 7 days of growth at 25 ° C in the dark, fluffy to cottony; circular shape, entire edge, with fluffy margin and medium density. Upper view white to smoke grey and reverse primrose.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Phan District,  Sai Khao, on tamarind ( Tamarindus indica), February 2023, Maryam Fallahi, dried culture MF 99-3 (MFLU 24-0235), living culture, MFLUCC 24-0237  .</p><p>Notes.</p><p>In the phylogenetic tree generated in this study, strain MFLUCC 24-0237 clustered with strains of  Colletotrichum makassarense by 95 % ML, 83 % MP bootstrap support, and 0.98 BYPP (Fig. 1). The base pair differences between  C. makassarense strains CBS 143664 (ex-type) and MFLUCC 24-0237 revealed 0.21 % (1 / 475) differences in ITS, 1.42 % (3 / 211) differences in gapdh, 1.26 % (3 / 237) differences in chs- 1, 0.24 % (1 / 410) differences in tub, and no difference in act.  Colletotrichum makassarense (MFLUCC 24-0237) shows some difference to  C. makassarense (CBS 143664, ex-type) by producing conidiogenous cells with an L / W ratio = 11 (7–30 × 1.5–3 μm in  C. makassarense (MFLUCC 24-0237) vs. 7–25 × 3–4 μm in  C. makassarense (CBS 143664, ex-type)).  Colletotrichum makassarense (MFLUCC 24-0237) produced appressoria with diverse shapes and sizes (lobate, brown to dark brown, irregular margin, and 5–12.5 × 4–10 in  C. makassarense (MFLUCC 24-0237) vs. solitary, medium brown, smooth-walled, subglobose, ellipsoidal to obovate, entire margin, 6–10.5 × 4–8.5 μm in  C. makassarense (CBS 143664, ex-type)), and setae were absent in  C. makassarense (MFLUCC 24-0237); however,  C. makassarense (CBS 143664, ex-type) produced medium brown setae (de Silva et al. 2019). Also,  C. makassarense (MFLUCC 24-0237) showed a high growth rate (60 mm after seven days on PDA) compared to  C. makassarense (CBS 143664, ex-type) (40 mm after seven days on PDA).  Colletotrichum makassarense is phylogenetically closely related to  C. tropicale; however, they are distinguished by multi-phylogenetic analysis (de Silva et al. 2019). It was first isolated from fruit lesions of  Capsicum annuum in Indonesia (de Silva et al. 2019). This study provided the first report of  C. makassarense in tamarind ( Tamarindus indica).</p></div>	https://treatment.plazi.org/id/7F9182B2310B5F0DBBA32CBE93F2775C	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
A2CC8F88F43B50CEA365BF5D0B76151F.text	A2CC8F88F43B50CEA365BF5D0B76151F.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Colletotrichum plurivorum Damm, Alizadeh & Toy	<div><p>Colletotrichum plurivorum Damm, Alizadeh &amp; Toy, Stud. Mycol. 92: 1–46. 2019</p><p>Fig. 7</p><p>Description.</p><p>Pathogenic to persimmon ( Diospyros ehretioides) and causes brown leaf spots on leaves. Sexual morph: Ascomata perithecial, solitary, superficial or immersed, non-stromatic, globose to pyriform, ostiolate, glabrous. Asci unitunicate, 8 - spored, cylindrical, smooth-walled, broadly truncated at the base. Ascospores uni- or biseriate, aseptate, hyaline, pale brown with age, allantoid to fusiform, rounded ends, smooth-walled. Asexual morph: conidiophores pale brown, smooth-walled, simple or septate, branched, up to 30 μm long. Conidiogenous cells pale brown, smooth-walled, cylindrical, 7–19 × 4–5.5 μm. Conidia hyaline, smooth-walled, aseptate, straight, cylindrical, sometimes slightly clavate on apex, base rounded, 10–20 × 4–8 μm (mean = 13 × 5 μm, n = 30). Appressoria solitary, dark brown, irregular in outline, undulate to lobate margin, 6–8 × 5.5–8 μm (mean = 7 × 6.5 μm, n = 20). Chlamydospores and Setae are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 60 mm in diameter after 7 days of growth at 25 ° C in the dark, flat with medium density, entire margin fluffy. The upper view is olivaceous grey in the center and greyish-white in the margin. The reverse is olivaceous in the center with olivaceous and primrose circles.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Doi Hang, on persimmon ( Diospyros ehretioides), February 2023, Maryam Fallahi, dried culture MF 117-1 (MFLU 24-0236), living culture, MFLUCC 24-0238  .</p><p>Notes.</p><p>Strain MFLUCC 24-0238 clustered with  Colletotrichum plurivorum (CBS 125474, ex-holotype) in the  Colletotrichum orchidearum species complex by 100 % ML, 100 % MP bootstrap support, and 1.0 BYPP (Fig. 6). The base pair differences between  C. plurivorum strains MFLUCC 24-0238 and CBS 125474 revealed 0.53 % (1 / 187 bp) differences in gapdh, 0.46 % (1 / 217 bp) differences in act, and no difference in ITS, chs- 1, and tub 2.  Colletotrichum plurivorum (MFLUCC 24-0238) is similar to  C. plurivorum in morphology (CBS 125474) (Damm et al. 2019). However, it produced slightly shorter appressoria with an L / W ratio = 1.1 (6–8 × 5.5–8 μm in  C. plurivorum (MFLUCC 24-0238) vs. 12.5–18.5 × 6.5–11.5 μm (L / W ratio = 1.75) in  C. plurivorum (CBS 125474, ex-type)) (Damm et al. 2019).  Colletotrichum plurivorum is closely related to  C. cliviicola and differs by a few nucleotides in each gene. The asexual morph of the two species is morphologically similar. However, the growth rate of  C. plurivorum is slower than that of  C. cliviicola (Damm et al. 2009) .  Colletotrichum plurivorum was first isolated from  Capsicum annuum in the Sichuan province of China and has a wide host range, including  Phaseolus lunatus, P. vulgaris,  Gossypium spp.,  Spathiphyllum wallisii, and  Coffea spp. (Damm et al. 2019; Hassan et al. 2022; Liu et al. 2016). In this study, we isolated  C. plurivorum from persimmon in northern Thailand as a new host record.</p></div>	https://treatment.plazi.org/id/A2CC8F88F43B50CEA365BF5D0B76151F	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
AE9ADE2C030C5003AF1E7177F6C8B83C.text	AE9ADE2C030C5003AF1E7177F6C8B83C.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Colletotrichum siamense Prihast., L. Cai & K. D. Hyde	<div><p>Colletotrichum siamense Prihast., L. Cai &amp; K. D. Hyde, Fungal Diversity 39: 98 (2009)</p><p>Fig. 5</p><p>Description.</p><p>Pathogenic to black pepper ( Piper nigrum) and causes brown leaf spots on leaves. Sexual morph not observed. Conidiophores hyaline, branched, or unbranched. Conidiogenous cells hyaline, cylindrical 7–20 × 1–2 μm (mean = 14 × 1.5 μm, n = 15). Conidia hyaline, fusiform, obtuse to slightly rounded at the ends, and sometimes oblong, single-celled, smooth-walled, guttulate, 8–18.3 × 3–5 μm (mean = 15 × 4.3 μm, n = 40). Appressoria frequently form from mycelia in slide cultures, brown, ovoid, sometimes clavate, and turn complex with age, 5–10 × 4.5–6.5 μm (mean = 8 × 5.5 μm, n = 20). Chlamydospores and Setae are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 70 mm in diameter after 7 days of growth at 25 ° C in the dark, cottony, with medium density. The colony’s surface is covered with numerous small acervuli, with orange conidial ooze. The upper view is white to light grey, and the reverse is greyish to pale yellowish.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Phan District,  Sai Khao . On a leaf of black pepper ( Piper nigrum), December 2022, Maryam Fallahi, dried culture MF 21-4 (MFLU 24-0240), living culture, MFLUCC 24-0235  •   Chiang Rai Province,  Phan District, Sai Khao, on Brazil cherry ( Eugenia brasiliensis), December 2022, Maryam Fallahi, dried culture MF 17-4 (MFLU 24-0239), living culture, MFLUCC 24-0234  .</p><p>Notes.</p><p>On the phylogenetic tree, strains MFLUCC 24-0235 and MFLUCC 24-0234 were placed close to  Colletotrichum siamense (ICMP 18578, ex-type) (Fig. 1). The base pair differences between  C. siamense strains ICMP 18578 and MFLUCC 24-0235 revealed 0.9 % (2 / 222 bp) differences in chs- 1, 0.97 % (2 / 206 bp) differences in act, 1.3 % (5 / 366 bp) differences in tub 2, and no difference in gapdh and ITS. Strain MFLUCC 24-0235 is similar to  C. siamense (MFLU 090230, holotype) (Prihastuti et al. 2009). However, it produced slightly larger conidia with an L / W ratio = 3.5 (8–18.3 × 3–5 μm in  C. siamense (MFLUCC 24-0235) vs. 7–18.3 × 3–4.3 μm (L / W ratio = 5) in  C. siamense (MFLU 090230, holotype)) and larger appressoria (5–10 × 4.5–6.5 μm (L / W ratio = 1.4) in  C. siamense (MFLUCC 24-0235) vs. 4.7–8.3 × 3.5–5 μm (L / W ratio = 1.6) in  C. siamense (MFLU 090230)) (Prihastuti et al. 2009). Phylogenetically,  C. siamense is closely related to  C. asianum; however, morphologically, they are different (Prihastuti et al. 2009).  Colletotrichum siamense has been reported as a pathogen on many host plants (Than et al. 2008; Talhinhas and Baroncelli 2021, 2023). It was isolated from anthracnose leaf spot on black pepper in northeast India (Verma et al. 2023). To our knowledge, this is the first report of  C. siamense on black pepper in Thailand.</p></div>	https://treatment.plazi.org/id/AE9ADE2C030C5003AF1E7177F6C8B83C	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
1CE63D5B0F7A5DDB9B61F668CD207574.text	1CE63D5B0F7A5DDB9B61F668CD207574.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Colletotrichum spaethianum (Allesch.) Damm, P. F. Cannon & Crous	<div><p>Colletotrichum spaethianum (Allesch.) Damm, P. F. Cannon &amp; Crous, Fungal Diversity 39: 74 (2009)</p><p>Fig. 9</p><p>Description.</p><p>Associated with brown leaf spot of edible canna (Canna  indica). Sexual morph not observed. Conidiomata acervulus, immersed or semi-immersed. Conidiophores formed directly on hyphae, hyaline, septate, and branched, up to 60 μm long. Conidiogenous cells enteroblastic, hyaline, cylindrical, slightly inflated, 8–18 × 2–3 μm. Conidia hyaline, smooth-walled, aseptate, slightly curved, 13–22 × 3.5–4 μm (mean = 17 × 3.6 μm, n = 20). Appressoria single or in loose groups, dark brown, irregular in shape, sometimes slightly lobed, smooth-walled 7–19 × 5–7.5 μm (mean = 13 × 6 μm, n = 30). Chlamydospores and Setae are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 60 mm in diameter after 7 days of growth at 25 ° C in the dark, circular, with dull surfaces and entire margins. The upper view is cottony with medium density, greyish-white in the center, flat, fluffy, and pinkish-white in other parts. The reverse has dark grey to orange pigmentation in the center and primrose in other parts.</p><p>Material examined.</p><p>Thailand • Muang Chiang Mai,  Mushroom Research Center, on edible canna (Canna  indica), 19 February 2023, Maryam Fallahi, dried culture MF 140-1 (MFLU 24-0242), living culture, MFLUCC 24-0236  .</p><p>Notes.</p><p>Based on the phylogenetic tree generated in this study, strain MFLUCC 24-0236 grouped with  Colletotrichum spaethianum (CBS 167-49, ex-epitype) in the  C. spaethianum species complex by 100 % ML, 100 % MP bootstrap support, and 1.0 BYPP (Fig. 8). The base pair differences between  C. spaethianum strains MFLUCC 24-0236 and CBS 167-49 revealed no difference in ITS, gapdh, chs- 1, act, and tub 2.  Colletotrichum spaethianum (MFLUCC 24-0236) is similar to  C. spaethianum (CBS 167-49). However, it produced slightly larger conidiogenous cells with an L / W ratio = 6 (8–18 × 2–3 μm in  C. spaethianum (MFLUCC 24-0236) vs. 6–16 × 3–4 μm (L / W ratio = 5.4) in  C. spaethianum (CBS 167–49)) and bigger appressoria (7–19 × 5–7.5 μm (L / W ratio = 2.2) in  C. spaethianum (MFLUCC 24-0236) vs. 7–9.5 × 5–7.5 μm (L / W ratio = 1.3) in  C. spaethianum (CBS 167-49)) (Damm et al. 2009). Also, unlike  C. spaethianum (CBS 167-49), setae were not observed in  C. spaethianum (MFLUCC 24-0236) (Damm et al. 2009). In our phylogenetic analysis,  C. spaethianum (CBS 167-49) clustered in a well-supported subclade with  C. guizhouensis (CGMCC 3.15112, ex-type),  C. lilii (CBS 109214), and  C. bicoloratum (NN 055229).  Colletotrichum spaethianum is similar to the other three species in conidial shape and differs in setae, which usually have an acute tip and a cylindrical to conical base in  C. spaethianum . The appressoria of  C. spaethianum have an irregular outline that is more or less lobed (Damm et al. 2009).  Colletotrichum spaethianum was first reported on dead stems of  Funkia univittata from Germany (Damm et al. 2009). It usually causes leaf spots and anthracnose on various hosts (Liu et al. 2020; Ma et al. 2020; Sun et al. 2020). This study provided the first host record for  C. spaethianum on edible canna in Thailand.</p></div>	https://treatment.plazi.org/id/1CE63D5B0F7A5DDB9B61F668CD207574	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
1B07529199B45A5E98C6DB33089DBCCA.text	1B07529199B45A5E98C6DB33089DBCCA.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diaporthe fistulosi Fallahi, Jayawar. & K. D. Hyde 2025	<div><p>Diaporthe fistulosi Fallahi, Jayawar. &amp; K. D. Hyde sp. nov.</p><p>Fig. 13</p><p>Etymology.</p><p>‘ fistulosi ’ refers to the host plant species from which the fungus was isolated.</p><p>Description.</p><p>Pathogenic to spring onion ( Allium fistulosum) and causes basal rot and wilting symptoms on infected plants. Sexual morph not observed. Pycnidia immersed with black neck, slightly elongated. Conidiophores densely aggregated, unbranched, hyaline, subcylindrical, straight to sinuous, 6.5–17.5 × 1.5–2.5 μm (mean = 13 × 1.5 μm, n = 10). The conidiogenous cells phialidic, terminal, slightly tapering towards the apex. Paraphyses elongate above the conidiophores, hyaline, smooth, cylindrical, septate, unbranched, 10–20 × 2–2.5 μm (mean = 15 × 2.3 μm, n = 15). Beta conidia filiform, curved at one tip, hyaline, aseptate, rounded at tips, 15–25 × 1–1.4 μm (23 × 1 μm, n = 40). Alpha and gamma conidia are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 65–70 mm in diameter after 7 days of growth at 25 ° C in the dark, covered with plenteous greyish-white villous aerial mycelium after 7 days. The reverse is slightly reddish-yellow in the center, with black fruiting bodies with age.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Doi Hang, spring onion ( Allium fistulosum), February 2023, Maryam Fallahi, dried culture MF 112-3 (MFLU 24-0261, holotype), ex-holotype culture, MFLUCC 24-0244  .</p><p>Notes.</p><p>Based on phylogenetic analysis of ITS, tef 1, tub 2, cal, and his 3 sequence data, the strain MFLUCC 24-0244 formed a distinct branch within the subclade containing  Diaporthe pterocarpicola (MFLUCC 10-0580 a [ex-type] and MFLUCC 10-0580 b) in the  Diaporthe arecae species complex, supported by 100 % ML bootstrap and 1.0 BYPP (Fig. 12). It is introduced here as a new species,  Diaporthe fistulosi . The base pair differences between  D. fistulosi strains MFLUCC 24-0244 (ex-holotype) and MFLUCC 10-0580 a were 0.97 % (5 / 513 bp) in ITS, 0.31 % (1 / 315 bp) in tef 1, 0.25 % (1 / 391 bp) in tub 2, and 1.4 % (3 / 212 bp) in cal. The sequence data of his 3 is not available for  D. pterocarpicola (MFLUCC 10-0580 a). Unlike the holotype of  D. pterocarpicola (MFLU 12-0129), which produced alpha conidia and did not produce beta conidia (Udayanga et al. 2012),  D. fistulosi (MFLUCC 24-0244) only produced beta conidia. A pairwise homoplasy index (PHI) test indicated no significant recombination (Φw = 1.0) between  D. fistulosi (MFLUCC 24-0244) and its closely related taxa (Fig. 14).</p></div>	https://treatment.plazi.org/id/1B07529199B45A5E98C6DB33089DBCCA	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
64DC42E211095308B9A37E7EBAB5E21B.text	64DC42E211095308B9A37E7EBAB5E21B.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diaporthe hongkongensis R. R. Gomes, Glienke & Crous	<div><p>Diaporthe hongkongensis R. R. Gomes, Glienke &amp; Crous, Persoonia 31: 23 (2013)</p><p>Fig. 15</p><p>Description.</p><p>Pathogenic to rambutan ( Nephelium lappaceum) and causes fruit rot. Sexual morph not observed. Conidiomata pycnidial, superficial to embedded, solitary to aggregated, pyriform or globose with central ostiole, and cream conidial mass, up to 250 μm in diameter. Conidiophores, hyaline, smooth, septate, subcylindrical. Paraphyses intermingled among conidiophores, hyaline, smooth, branched, septate, with clavate terminal cell, 30–50 × 0.5–1.3 μm (38 × 1 μm, n = 20). Alpha conidia aseptate, hyaline, smooth, ovate to ellipsoidal, granular to guttate, 5.7–7.8 × 1.5–2.5 μm (6.5 × 2 μm, n = 30). Beta conidia filiform, curved at one tip, hyaline, aseptate, rounded at tips, 15–25 × 1–2 μm (20 × 1.5 μm, n = 30). Gamma conidia absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 70–80 mm in diameter after seven days of growth at 25 ° C in the dark, felted, fluffy margin, pale olivaceous-grey, with an obvious pale brown concentric ring of dense hyphae, and turn into pale brown with age.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Ban Du, lesion of rambutan ( Nephelium lappaceum) fruit, June 2023, Maryam Fallahi, dried culture L 2-3 (MFLU 24-0247), living culture, MFLUCC 24-0246  .</p><p>Notes.</p><p>Based on phylogenetic analysis, strain MFLUCC 24-0246 grouped in the  Diaporthe arecae species complex with  Diaporthe hongkongensis (CBS 115448, ex-type) with 72 % ML bootstrap support and 0.78 BYPP (Fig. 12). The base pair differences between  D. hongkongensis strains MFLUCC 24-0246 and CBS 115448 revealed a 0.75 % (4 / 533 bp) difference in ITS, a 0.66 % (2 / 301 bp) difference in tef 1, a 3.84 % (16 / 416 bp) difference in tub 2, and a 0.46 % (2 / 433 bp) difference in cal, and no difference in his 3.  Diaporthe hongkongensis (MFLUCC 24-0246) and the ex-type strain of  D. hongkongensis (CBS 115448) are similar. Adding more strains of  D. hongkongensis in phylogenetic analyses in this study revealed that strains of this species were dispersed throughout the subclade. The relationships among these species remain uncertain, necessitating further analysis to resolve the confusion surrounding their classification and clarify their taxonomic relationships. Recently, a combined gene phylogeny analysis by Dissanayake et al. (2024) redefined the species boundaries of  D. hongkongensis . The study proposed that eight previously distinct species,  D. australiana,  D. eucalyptorum,  D. eucommiae,  D. lagerstroemiae,  D. lithocarpus,  D. rhodomyrti, and  D. salinicola, are a single species,  D. hongkongensis (Dissanayake et al. 2024) .  Diaporthe hongkongensis was first isolated from the fruit of  Dichroa febrifuga in Hong Kong, China (Gomes et al. 2013), which usually causes trunk diseases. It was reported as a cause of top blight of  Cunninghamia lanceolata (Liao et al. 2023), fruit rot in  Prunus persica (Zhang et al. 2021), and shoot canker in  Pyrus communis (Guo et al. 2020) . This study provides a new host and geographical record for  D. hongkongensis on rambutan in northern Thailand.</p></div>	https://treatment.plazi.org/id/64DC42E211095308B9A37E7EBAB5E21B	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
47BACC892A235C41A9D0F6062A9BBFF2.text	47BACC892A235C41A9D0F6062A9BBFF2.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diaporthe melongenicola Fallahi, Jayawar. & K. D. Hyde 2025	<div><p>Diaporthe melongenicola Fallahi, Jayawar. &amp; K. D. Hyde sp. nov.</p><p>Fig. 20</p><p>Etymology.</p><p>‘ melongenicola ’ refers to the host plant species from which the fungus was isolated.</p><p>Description.</p><p>Pathogenic to makhuea ( Solanum melongena) and causes blight, stem cankers, and fruit rot. Sexual morph not observed. Conidiomata pycnidial, superficial to embedded, solitary to aggregated, with single or multiple cavities, globose, with cream conidial mass, up to 200 μm in diameter. Conidiophores hyaline, smooth, straight, unbranched, rounded at the tip, and wider at the base, septate, 9–20 × 1.2–2.9 μm (mean = 13.4 × 1.9 μm, n = 15). Paraphyses intermingled among conidiophores, hyaline, smooth, septate, 9–33 × 1.4–1.5 μm (mean = 24 × 1.16 μm, n = 15). Beta conidia filiform, curved at one tip, hyaline, aseptate, rounded at tips, 15–27 × 1–2 μm (mean = 20 × 1.5 μm, n = 30). Alpha and gamma conidia are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 70–80 mm in diameter after seven days of growth at 25 ° C in the dark, fluffy and slightly felted with age, circular in shape, with cottony growth of the aerial mycelium in rings, grey to olivaceous grey, pale brown with age. The reverse is reddish brown, with many black dots.</p><p>Material examined.</p><p>Thailand • Chiang Rai, Mueang Chiang Rai District,  Doi Hang, stem canker in makhuea ( Solanum melongena), January 2023, Maryam Fallahi, dried culture MF 90-2 (MFLU 24-0244, holotype), ex-holotype culture, MFLUCC 24-0242  .</p><p>Notes.</p><p>In the phylogenetic tree generated in this study, strain MFLUCC 24-0242 formed a distinct branch within the  D. sojae species complex in the subclade that includes the type strains of  D. morindendophytica (ZHKUCC 22-0069, holotype) and  D. tectonendophytica (MFLUCC 13-0471, ex-type) with 89 % ML bootstrap support and 0.90 BYPP (Fig. 16) and is introduced here as a new species, namely  Diaporthe melongenicola . The base pair differences between  Diaporthe melongenicola (MFLUCC 24-0242) with type strains of closely related species are presented in Table 4. A pairwise homoplasy index (PHI) test indicated no significant recombination (Φw = 1.0) between  D. melongenicola (MFLUCC 24-0242, holotype) and its closely related taxa (Fig. 19). These species are different from our isolate by producing alpha conidia and diverse culture characteristics. Considering both morphology and molecular data,  D. melongenicola (MFLUCC 24-0242) could be identified as a novel species on makhuea ( Solanum melongena) in northern Thailand.</p></div>	https://treatment.plazi.org/id/47BACC892A235C41A9D0F6062A9BBFF2	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
75CF43E5B30A598E87B23614276B0D3C.text	75CF43E5B30A598E87B23614276B0D3C.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diaporthe Nitschke	<div><p>Diaporthe Nitschke, Pyrenomycetes Germanici. 2: 240 (1870)</p><p>Notes.</p><p>In the present study, based on phylogenetic analyses of the ITS, tef 1, tub 2, cal, and his 3 sequence data and morphology, four well-known species, viz.,  Diaporthe hongkongensis,  D. rosae,  D. sennicola, and  D. siamensis, and two novel species, viz.,  Diaporthe fistulosi and  Diaporthe melongenicola, are illustrated.</p></div>	https://treatment.plazi.org/id/75CF43E5B30A598E87B23614276B0D3C	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
06D9BCEB235B533B81DA651C54B11D80.text	06D9BCEB235B533B81DA651C54B11D80.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diaporthe rosae Samarak. & K. D. Hyde	<div><p>Diaporthe rosae Samarak. &amp; K. D. Hyde, Fungal Diversity: 185 (2018)</p><p>Fig. 17</p><p>Description.</p><p>Pathogenic to makhuea kheun ( Solanum xanthocarpum) and causes dark brown to black stem lesions, circular to irregular necrotic leaf spots with dark margins, and water-soaked fruit lesions that enlarge over time. Sexual morph not observed. Conidiomata pycnidial, multiloculate, scattered, globose, or asymmetrical, black. Peridium consists of brown cells with angular texture on the surface. Conidiophores hyaline, smooth-walled, two-septate, branched, compactly aggregated, cylindrical, straight to sinuous, occasionally reduced to conidiogenous cells. Conidiogenous cells phialidic, subcylindrical, or ampulliform, slightly tapering towards the apex. Beta conidia aseptate, hyaline, smooth-walled, 13–23 × 0.8–1.4 μm (mean = 19 × 1.3 μm, n = 30). Gamma and alpha conidia are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 35–40 mm in diameter after 7 days of growth at 25 ° C in the dark, felted, white clots of mycelium arranged outward, becoming pale yellow with age. The reverse is whitish and ozonate.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Phan District,  Sai Khao, on the stem of makhuea kheun ( Solanum xanthocarpum). February 2023, Maryam Fallahi, dried culture MF 101-1 (MFLU 24-0245), living culture, MFLUCC 24-0243  .</p><p>Notes.</p><p>Based on phylogenetic analysis of combined ITS, tef 1, tub 2, cal, and his 3 sequence data, the strain MFLUCC 24-0243 clustered with the ex-type strain of  Diaporthe rosae (MFLUCC 17-2658) by 87 % ML bootstrap support (Fig. 16). The base pair differences between  D. rosae strains MFLUCC 24-0243 and MFLUCC 17-2658 revealed a 2.07 % (10 / 481 bp) difference in cal, and no difference in ITS and tub 2. The sequence data for tef 1 and his 3 are not available for the ex-type strain of  D. rosae (MFLUCC 17-2658).  Diaporhe rosae (MFLUCC 24-0243) and the ex-type of  D. rosae (MFLU 17-2658) are similar. However,  D. rosae (MFLUCC 24-0243) produced slightly larger beta conidia with an L / W ratio = 14.6 (19 × 1.3 μm in  D. rosae (MFLUCC 24-0243) vs. 17.5 × 1 μm in  D. rosae (MFLUCC 17-2658)).  Diaporthe rosae was erected by Wanasinghe et al. (2018) as a saprobic taxon that was isolated from a dead pedicel of  Rosa sp. in Chiang Rai Province, Thailand. Based on the phylogenetic tree of Norphanphoun et al. (2022),  D. rosae clustered in the  D. sojae species complex. This study reports  D. rosae (MFLUCC 24-0243) from makhuea kheun ( Solanum xanthocarpum), identifying this plant as a new host.</p></div>	https://treatment.plazi.org/id/06D9BCEB235B533B81DA651C54B11D80	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
9414B57E9A05501FBB15C92009E75748.text	9414B57E9A05501FBB15C92009E75748.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diaporthe sennicola C. M. Tian & Qin Yang	<div><p>Diaporthe sennicola C. M. Tian &amp; Qin Yang, Phytotaxa 302 (2): 150 (2017)</p><p>Fig. 11</p><p>Description.</p><p>Pathogenic to okra ( Abelmoschus esculentus) and causes brown stem lesion (canker) of the stem. Sexual morph not observed. Conidiomata pycnidial, immersed, scattered, circular, or ovoid in shape, with single, undivided loculus. Ectostromatic disc dark brown, flat, elliptical. Conidiophores hyaline, branched, phialidic, straight or partially curved, narrowing towards the apex, 11.5–17 × 1–1.6 μm (12.7 × 1.3 μm, n = 20). Conidiogenous cells hyaline, phialidic, straight, or partially curved. Alpha conidia hyaline, aseptate, elliptic, biguttulate, 5–9 × 1.3–2.7 μm (6.5 × 2.3 μm, n = 40). Beta and gamma conidia are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 50–55 mm in diameter after 7 days of growth at 25 ° C in the dark, flat, and white, turning into greyish rose with age. Compact, furcate mycelium is erratically distributed over the agar surface, edge irregular.</p><p>Material examined.</p><p>Thailand • Sakon Nakhon Province,  Mueang Sakon Nakhon District, on stem lesion of okra ( Abelmoschus esculentus), February 2023, Maryam Fallahi, dried culture MF 148-2 (MFLU 24-0243), living culture, MFLUCC 24-0241  .</p><p>Notes.</p><p>In the phylogenetic tree generated in this study, strain MFLUCC 24-0241 clustered with strains of  Diaporthe sennicola (CFCC 51634 (ex-type) and CFCC 51635) with 100 % ML bootstrap support, and 1.0 BYPP (Fig. 10). The base pair differences between  D. sennicola strains MFLUCC 24-0241 and ex-type CFCC 51634 revealed 2.4 % (11 / 455 bp) differences in ITS, 2.9 % (8 / 276 bp) differences in tef 1, 2.8 % (13 / 464 bp) differences in tub 2, and 0.4 % (2 / 455 bp) differences in cal. The sequence data of his 3 is not available for  D. sennicola (CFCC 51634).  Diaporthe sennicola (MFLUCC 24-0241) is similar to  D. sennicola (BJFC-S 1368, holotype) (Yang et al. 2017). Based on phylogenetic analyses conducted by Norphanphoun et al. (2022), it was clustered in the  D. alnea species complex. In the phylogenetic tree of Dong et al. (2020),  D. sennicola is similar to  D. clausenae . However,  D. clausenae can be distinguished from  D. sennicola by the presence of 2–4 large or small guttules in alpha conidia, as well as the presence of beta conidia (Hongsanan et al. 2023). This study identifies okra as a new host for  D. sennicola .</p></div>	https://treatment.plazi.org/id/9414B57E9A05501FBB15C92009E75748	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
8937D984430A53619EB67DE39EF5AE1D.text	8937D984430A53619EB67DE39EF5AE1D.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diaporthe siamensis Udayanga, Xing Z. Liu & K. D. Hyde	<div><p>Diaporthe siamensis Udayanga, Xing Z. Liu &amp; K. D. Hyde, Cryptog. Mycol. 33 (3): 298 (2012)</p><p>Fig. 18</p><p>Description.</p><p>Pathogenic to rambutan ( Nephelium lappaceum) and causes fruit rot. Sexual morph not observed. Conidiomata pycnidial, subglobose, flasky, or erratically shaped, with individual or multiple cavities. Conidiophores cylindrical, hyaline, simple, in dense aggregates, 1.5–1.8 μm. Conidiogenus cells hyaline, phialidic, cylindrical. Paraphyses hyaline, sub-cylindrical, septate, reaching above conidiophores, straight, flexuous, branched, up to 33 μm in length. Beta conidia aseptate, hyaline, hamate, or curved, with an acutely rounded apex and truncated base, 18–32 × 1–1.8 µm (mean = 25.5 × 1.3 μm, n = 30). Gamma and alpha conidia not observed.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 60–65 mm in diameter after 7 days of growth at 25 ° C in the dark, cottony, white to cream, with lobate margins. The reverse is greenish yellow, with emerging dark pigmentation spots, along with the production of enormous black stromata on PDA.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Ban Du, Fruit rot on rambutan ( Nephelium lappaceum), June 2023, Maryam Fallahi, dried culture L 1-2 (MFLU 24-0246), living culture, MFLUCC 24-0245  .</p><p>Notes.</p><p>MFLUCC 24-0245 strain clustered with  Diaporthe siamensis (MFLUCC 10-0573 a, ex-type) with 100 % ML bootstrap support, and 1.0 BYPP (Fig. 16). The base pair differences between  D. siamensis strains MFLUCC 24-0245 and MFLUCC 10-0573 a revealed a 0.38 % (2 / 519 bp) difference in ITS, a 1.7 % (4 / 234 bp) difference in tef 1, a 0.64 % (3 / 469 bp) difference in tub 2, and no difference in cal. The sequence data of his 3 is not available for  D. siamensis (MFLUCC 10-0573 a).  D. siamensis (MFLUCC 24-0245) has larger Beta conidia with an L / W = 19.6 (18–32 × 1–1.8 µm in  D. siamensis (MFLUCC 24-0245) vs. 15–18 × (1.5 –) 2 μm in  D. siamensis (MFLU 12–0121, holotype)), and it did not produce gamma and alpha conidia. Based on the phylogenetic tree of Norphanphoun et al. (2022),  D. siamensis grouped in the  D. sojae species complex. Previous reports indicated that  D. siamensis exhibited the ability to cause disease in  Citrus sinensis (Cui et al. 2021) and  Dasymaschalon sp. (Udayanga et al. 2012). Additionally, it was identified as an endophyte in  Pandanus sp. in Thailand (Tibpromma et al. 2018) and  Garcinia parvifolia in Malaysia (Udayanga et al. 2012).  Diaporthe siamensis from rambutan was isolated in Thailand by Abeywickrama et al. (2023).</p></div>	https://treatment.plazi.org/id/8937D984430A53619EB67DE39EF5AE1D	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
62018EADEB9958C7B741C968F7943B66.text	62018EADEB9958C7B741C968F7943B66.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Fusarium bubalinum J. W. Xia, L. Lombard, Sand. - Den., X. G. Zhang & Crous	<div><p>Fusarium bubalinum J. W. Xia, L. Lombard, Sand.-Den., X. G. Zhang &amp; Crous, Persoonia 43: 195 (2019)</p><p>Fig. 22</p><p>Description.</p><p>Pathogenic to dragon fruit ( Hylocereus trigonus) and causes stem rot. Sexual morph not observed. Conidiophores on aerial mycelium unbranched, sympodial, or irregularly branched, comprising terminal or lateral phialides that are frequently reduced to single phialides. Conidiogenous cells mono- or polyphialidic, subulate to subcylindrical, smooth and thin-walled, 5–25 × 1.5–3.5 μm. Aerial conidia ellipsoidal to falcate, slender, curved dorsoventrally, tap towards both ends, blunt to conical and straight to slightly curved apical cell, with a blunt to papillate basal cell, 0–7 septate, 8–28.5 × 1.3–2.8 µm (mean = 16 × 2 μm, n = 30). Microcyclic conidiogenesis often occurs. Sporodochia and chlamydospores are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 80 mm in diameter after 7 days of growth at 25 ° C in the dark, cottony, white to buff, floccose, and radiate with moderate aerial mycelium, filiform, and margins irregular, having sparse aerial mycelium and high sporulation on the surface of SNA medium. The reverse is a pale primrose.</p><p>Material examined.</p><p>Thailand • Chiang Rai, Mueang Chiang Rai District,  Doi Hang . On stem rot in dragon fruit, February 2023, Maryam Fallahi, dried culture MF 35-5 (MFLU 24-0249), living culture MFLUCC 24-0230  .</p><p>Notes.</p><p>Based on phylogenetic analysis, strain MFLUCC 24-0230 clustered in the same subclade with  Fusarium bubalinum (CBS 161-25, ex-type) in  Fusarium incarnatum species complex with 97 % ML, 99 % IQ bootstrap support and 0.99 BYPP (Fig. 21). The base pair differences between  F. bubalinum strains MFLUCC 24-0230 and ex-type CBS 161-25 showed that they are identical in tef 1 and rpb 2, and sequence data of rpb 1 are not available for  F. bubalinum (CBS 161-25, ex-type).  Fusarium bubalinum (MFLUCC 24-0230) is similar to the ex-type strain of  F. bubalinum in morphology (CBS 161-25).  Fusarium bubalinum was introduced as a new species in the  Fusarium incarnatum-equiseti complex, and the type strain was isolated from an unknown substrate in Australia (Xia et al. 2019). However, details regarding its host are scarce. Recently, it was reported in association with sheath rot disease of rice in Indonesia (Pramunadipta et al. 2022). In this study, we report  F. bubalinum causing stem rot in dragon fruit in northern Thailand as a new host and geographical record.</p></div>	https://treatment.plazi.org/id/62018EADEB9958C7B741C968F7943B66	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
FCFAA96804FC544FA40AE4E47577AB72.text	FCFAA96804FC544FA40AE4E47577AB72.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Fusarium languescens L. Lombard & Crous	<div><p>Fusarium languescens L. Lombard &amp; Crous, Persoonia 41: 28 (2018)</p><p>Fig. 26</p><p>Description.</p><p>Associated with tuber rot of lesser yam ( Dioscorea esculenta). Sexual morph not observed. Conidiophores on aerial mycelium unbranched or slightly branched, comprise terminal or intercalar monophialides, frequently reduced to single phialides. Aerial phialides subulate to subcylindrical, smooth, and thin-walled, 6.5–18 × 2–3.8 µm (Mean = 15 × 2.5 µm, n = 15), with unnoticeable or absent periclinal thickening. Microconidia ellipsoidal to falcate, hyaline, smooth, thin-walled, 0 - septate, 3.6–9 × 2–3.4 µm (Mean = 6 × 2.5 µm, n = 30), formed in a small false head on the tips of the phialides on SNA. Sporodochia light orange on carnation leaves. Conidiophores in sporodochia verticillately branched, comprising a short, smooth, and thin-walled stipe, carrying apical whorls of 2–3 monophialides or scarcely single lateral monophialides. Sporodochial phialides subulate to subcylindrical, smooth, and thin-walled. Sporodochial conidia falcate, curved dorsiventrally, with almost parallel sides tapering a little towards both ends, with a blunt papillate and curved apical cell. Basal cells are blunt to foot-like, 1–5 septate, hyaline, smooth, and thin-walled; 1 - septate conidia 18–23 × 3–4 µm (mean = 20 × 3 µm, n = 20); 2 - septate conidia 15–22 × 3–4 µm (mean = 18 × 3 µm, n = 20); 3 - septate conidia 25–37 × 3–5 µm (mean = 31 × 4 µm, n = 20); 5 - septate conidia 33–41 × 4–5 µm (mean = 35 × 5 µm, n = 20). Chlamydospores globose to subglobose, formed terminally, 7–8 µm in diameter.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 80–85 mm in diameter after 7 days of growth at 25 ° C in the dark, white to pale vinaceous, floccose with plentiful aerial mycelium. The margins of colonies are irregular, serrate, or filiform. The reverse is pale rosy.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Doi Hang, on lesser yam ( Dioscorea esculenta), February 2023, Maryam Fallahi, dried culture MF 67-4 (MFLU 24-0252), living culture, MFLUCC 24-0249  .</p><p>Notes.</p><p>Based on the phylogenetic tree generated for  Fusarium oxysporum species complex (FOSC), strain MFLUCC 24-0249 clustered with  F. languescens (CBS 645.78, ex-type) with 97 % ML, 96 % IQ bootstrap support, and 1.0 BYPP (Fig. 25). The base pair differences between  F. languescens strains MFLUCC 24-0249 and ex-type CBS 645.78 revealed a 0.33 % (2 / 601 bp) difference in tef 1, a 0.25 % (2 / 795 bp) difference in rpb 1, and no difference in rpb 2. Phylogenetic analysis by Lombard et al. (2019) revealed that  F. languescens establishes a subclade as highly supported, which mostly includes strains related to tomato wilt.  Fusarium languescens shows morphological overlap with several species. Hence, phylogenetic inference is required to identify them correctly. Recently, several putative species, six belonging to FOSC ( F. aff. cugenangense,  F. aff. curvatum,  F. aff. gossypinum,  F. aff. nirenbergiae,  F. aff. odoratissimum, and  Fusarium aff. sp.),  F. aff. asiaticum,  F. aff. commune,  F. aff. fujikuroi,  F. aff. solani, and  F. aff . Verticillioides, were reported from Chinese yam ( Dioscorea polystachya Thunb.) in China (Dongzhen et al. 2020). Dongzhen et al. (2020) stated these species are potentially new taxa, and they used “ species affinis ” or “ aff. sp. ” for short to the tentative nature of their species identifications. This is the first report of  F. languescens on lesser yam in the world and Thailand.</p></div>	https://treatment.plazi.org/id/FCFAA96804FC544FA40AE4E47577AB72	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
4CA45B889C47521A8B3F4D3D659F3CF6.text	4CA45B889C47521A8B3F4D3D659F3CF6.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Fusarium Link	<div><p>Fusarium Link, Mag. Gesell. naturf. Freunde, Berlin 3 (1–2): 10 (1809)</p><p>Notes.</p><p>In the present study, five species of  Fusarium, including  Fusarium bubalinum,  F. languescens,  F. nirenbergiae,  F. sulawesiense, and  F. tanahbumbuense, are reported from different hosts in Thailand.</p></div>	https://treatment.plazi.org/id/4CA45B889C47521A8B3F4D3D659F3CF6	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
5D72D9A8A6A85D9AA9B527F53DBC389A.text	5D72D9A8A6A85D9AA9B527F53DBC389A.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Fusarium nirenbergiae L. Lombard & Crous	<div><p>Fusarium nirenbergiae L. Lombard &amp; Crous, Persoonia 41: 29 (2018)</p><p>Fig. 27</p><p>Description.</p><p>Pathogenic to spring onion ( Allium fistulosum) and causes yellowing, curling, and wilting of leaves, often accompanied by basal rot and reddish-brown discoloration of the roots and bulb plate. Sexual morph not observed. Conidiophores on aerial mycelium unbranched or slightly branched, comprise terminal or intercalary monophialides, often reduced to single phialides. Aerial phialides, subulate to subcylindrical, smooth, thin-walled, 9–23 × 1.5–2.5 µm, with unnoticeable or absent periclinal thickening. Aerial conidia formed in small false heads on the tips of the phialides, 0–1 - septate 0 - septate conidia: 5–9 × 2–4 μm (mean = 8 × 3 μm, n = 20), 1 - septate conidia: 9–14 × 2–4 μm (mean = 12 × 3 μm, n = 20). Macroconidia falcate, curved dorsoventrally, with apical cell blunt to papillate, curved, basal cell blunt to foot-like, hyaline, smooth, and thin-walled, 3–5 - septate: 3 - septate conidia: 31–41 × 3.5–4 μm (mean = 35 × 4 μm, n = 20), 4 - septate conidia: 35–45 × 3–5 μm (mean = 38 × 4 μm, n = 20), 5 - septate conidia: 42–55 × 3–4 μm (mean = 50 × 4 μm, n = 20). Sporodochia and chlamydospores were not observed.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 65 mm in diameter after 7 days of growth at 25 ° C in the dark, white to pale vinaceous, with abundant aerial mycelium and filiform margins. Reverse is pale vinaceous.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Doi Hang, on spring onion ( Allium fistulosum), February 2023, Maryam Fallahi, dried culture MF 112-2 (MFLU 24-0251), living culture MFLUCC 24-0248  .</p><p>Notes.</p><p>In the phylogenetic tree generated for  Fusarium oxysporum species complex, strain MFLUCC 24-0248 clustered with the ex-type strain of  Fusarium nirenbergiae (CBS 840 88) with 68 % ML, 73 % IQ bootstrap support, and 0.99 BYPP (Fig. 25). The base pair differences between  F. nirenbergiae strains MFLUCC 24-0248 and CBS 840 88 revealed a 0.16 % (1 / 612 bp) difference in tef 1 and a 0.57 % (5 / 876 bp) difference in rpb 2. The sequence data of rpb 1 is not available for  F. nirenbergiae (CBS 840 88).  Fusarium nirenbergiae (MFLUCC 24-0248) did not produce sporodochia or chlamydospores; however, the ex-type strain of  F. nirenbergiae did produce both structures. (Lombard et al. 2019). Phylogenetically,  F. nirenbergiae is closely related to  F. curvatum; however, they are distinguished based on morphology and molecular analysis (Lombard et al. 2019).  Fusarium nirenbergiae is globally recognized as a causative agent of wilting on various hosts (Lombard et al. 2019; Aiello et al. 2021). To the best of our knowledge, this study represents the first report of  Fusarium wilt on spring onion caused by  F. nirenbergiae .</p></div>	https://treatment.plazi.org/id/5D72D9A8A6A85D9AA9B527F53DBC389A	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
9F4717E22E48563FB562B9ED0E9E65B4.text	9F4717E22E48563FB562B9ED0E9E65B4.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Fusarium sulawesiense Sand. - Den., L. Lombard, Kema & Crous	<div><p>Fusarium sulawesiense Sand.-Den., L. Lombard, Kema &amp; Crous [as ‘ sulawense’], Persoonia 43: 65 (2019)</p><p>Fig. 23</p><p>Description.</p><p>Pathogenic to Mangosteen ( Garcinia mangostana) and causes small, water-soaked lesions on the fruit surface; lesions may appear slightly sunken and surrounded by a yellow or brown halo. Sexual morph not observed. Conidiophores on aerial mycelium plentiful, septate, verticillately or irregularly branched. Conidiogenous cells mono- or polyphialidic, sub-cylindrical, smooth, thin-walled, 8–20 × 1.5–4 µm (mean = 14 × 3 μm, n = 20). Conidia on aerial mycelium falcate or fusiform, 1–5 septate: 1 - septate conidia 8.5–20 × 2.2–4.7 µm (mean = 13.5 × 3.5 μm, n = 30), 5 - septate conidia 32–42 × 2.5–4.5 µm (mean = 35 × 4.1 μm, n = 30). Sporodochia are formed on CLA after 7 days and have a pale orange color. Macroconidia in sporodochia falcate, with apical cells gently curved, papillate, and basal cells slightly curved, foot-shaped, 3–7 septate, 30–40.5 × 2.5–4 µm (mean = 33 × 3.6 μm, n = 30). Chlamydospores are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 65 mm in diameter after 7 days of growth at 25 ° C in the dark, cottony, white to pale pink, yellow, or pale brown in the center, and with a radial orange color on the reverse.</p><p>Material examined.</p><p>Thailand • Chiang Rai, Mueang Chiang Rai District,  Ban Du, on fruit rot of Mangosteen ( Garcinia mangostana), June 2023, Maryam Fallahi, dried culture L 5-6 (MFLU 24-0253), living culture, MFLUCC 24-0250  .</p><p>Notes.</p><p>Based on phylogenetic analysis, MFLUCC 24-0250 clustered with  Fusarium sulawesiense (InaCC F 940, holotype) in  F. incarnatum species complex with 67 % ML, 97 % IQ bootstrap support, and 0.99 BYPP (Fig. 21). The base pair differences between  F. sulawesiense strains MFLUCC 24-0250 and the ex-type InaCC F 940 revealed a 0.36 % (2 / 554 bp) difference in tef 1 and no difference in rpb 2. The sequence of the rpb 1 gene is not available for the type strain.  Fusarium sulawesiense (MFLUCC 24-0250) is similar to the ex-type strain (InaCC F 964). However, the ex-type strain did not describe septate conidia (Maryani et al. 2019 b).  Fusarium sulawesiense was first reported from bananas in Indonesia (Maryani et al. 2019 b). In Thailand, it was isolated from pineapple (Abeywickrama et al. 2023), and this study provides the first host association of  F. sulawesiense with Mangosteen ( Garcinia mangostana).</p></div>	https://treatment.plazi.org/id/9F4717E22E48563FB562B9ED0E9E65B4	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
07B14C6AA0F559FCA2721641F6F7E7F7.text	07B14C6AA0F559FCA2721641F6F7E7F7.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Fusarium tanahbumbuense Sand. - Den., L. Lombard, Kema & Crous	<div><p>Fusarium tanahbumbuense Sand. - Den., L. Lombard, Kema &amp; Crous, Persoonia 43: 63 (2019)</p><p>Fig. 24</p><p>Description.</p><p>Pathogenic to durian ( Durio zibethinus) and pepper ( Capsicum annuum), and causes small, water-soaked lesions on leaves and stems that enlarge into necrotic spots with dark margins, potentially leading to defoliation and stem girdling under favorable, humid conditions. Sexual morph not observed. Conidiophores on aerial mycelium septate, irregular, verticillately branched. Conidiogenous cells mono- or polyphialidic, subulate or subcylindrical, smooth and thin-walled, 7–24 × 2–4 µm (mean = 13 × 3 µm, n = 15). Conidia on aerial mycelium, ellipsoidal to falcate, smooth and thin-walled, 1–3 septate, 7–27 × 2–4 µm (mean = 33 × 3 µm, n = 30). Sporodochia are formed plentifully on CLA after 7 days and have a pale orange color. Conidia on sporodochia falcate, produced by both mono- and polyphialides, apical cells conical to papillate, basal cells indistinct or foot-shaped, 3–5 - septate, 26–38 × 2–3.7 µm (mean = 33 × 3 µm, n = 30). Chlamydospores are absent.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 50 mm in diameter after 7 days of growth at 25 ° C in the dark, cottony and rosy buff in the center, becoming white towards the margin, with moderate aerial mycelium, and appearing wet with age. The reverse is rosy buff, becoming white towards the margins.</p><p>Material examined.</p><p>Thailand • Chiang Rai, Mueang Chiang Rai District,  Doi Hang, on leaf spot on durian ( Durio zibethinus), December 2022, Maryam Fallahi, dried culture MF 31-1 (MFLU 24-0248), living culture MFLUCC 24-0231  •   Amphoe Mueang Sakon Nakhon,  Chang Wat Sakon Nakhon, leaf spot on pepper ( Capsicum annuum), February 2023, Maryam Fallahi, dried culture MF 145-1 (MFLU 24-0250), living culture MFLUCC 24-0247  .</p><p>Notes.</p><p>In the present study, strains MFLUCC 24-0231 and MFLUCC 24-0247 clustered with  Fusarium tanahbumbuense (InaCC: F 965, ex-type) in  F. incarnatum complex with 100 % ML, 100 % IQ bootstrap support, and 1.0 BYPP (Fig. 21). The base pair differences between  F. tanahbumbuense strains MFLUCC 24-0231 and ex-type InaCC: F 965 revealed a 0.36 % (2 / 541 bp) difference in tef 1, a 0.71 % (6 / 838 bp) difference in rpb 2, and a 0.27 % (2 / 742 bp) difference in rpb 1. The base pair differences between  F. tanahbumbuense (MFLUCC 24-0247) and  F. tanahbumbuense (InaCC: F 965, ex-type) revealed a 0.42 % (2 / 470 bp) difference in tef 1, a 0.62 % (8 / 801 bp) difference in rpb 2, and a 0.27 % (2 / 742 bp) difference in rpb 1.  Fusarium tanahbumbuense was first reported from Indonesia on an infected pseudostem of  Musa sp. (Maryani et al. 2019 a). This study provides two new hosts and geographical records for  F. tanahbumbuense on durian and pepper.</p></div>	https://treatment.plazi.org/id/07B14C6AA0F559FCA2721641F6F7E7F7	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
185522EE940B57A8A014E27D98ABBCD8.text	185522EE940B57A8A014E27D98ABBCD8.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Neopestalotiopsis formicidarum Maharachch., K. D. Hyde & Crous	<div><p>Neopestalotiopsis formicidarum Maharachch., K. D. Hyde &amp; Crous [as ‘ formicarum’], Mycol. 79: 140 (2014)</p><p>Fig. 29</p><p>Description.</p><p>Pathogenic to rambutan ( Nephelium lappaceum) and associated with dry leaf spots of lemon drop mangosteen ( Garcinia intermedia). Sexual morph not observed. Conidiomata pycnidial on PDA, globose to clavate, solitary or aggregated in clusters, semi-immersed, black; with dark brown conidial masses. Conidiophores reduced to conidiogenous cells. Conidiogenous cells hyaline, smooth, ampulliform to lageniform, 5–15 × 2–6 μm. Conidia straight to slightly curved, ellipsoid, 4 - septate, 18.5–25.5 × 5–7.5 μm (mean = 22 × 6 μm, n = 30); basal cell conic, thin-walled, 3–7 μm long; three median cells doliiform, pale to dark brown, septa darker than the rest of the cell, 11–16 μm long (second cell from base pale brown, 3.5–6.5 μm long; third cell dark brown, 3.5–8 μm long; fourth cell brown, 3.5–7 μm long); apical cell hyaline, subcylindrical, 3–5 μm long; with 2–3 tubular apical appendages, unbranched, 15–33 μm long (mean = 23); basal appendage centric, single, unbranched, tubular, 4–7.5 μm long (mean = 5).</p><p>Culture characteristics.</p><p>Colonies on PDA reach 30–40 mm in diameter after 7 days of growth at 25 ° C under 12 h daylight, cottony, with moderate aerial mycelium on the surface, edge undulate. The upper view is whitish with a black fruiting body. The reverse is yellow to pale honey-colored, with black, gregarious conidiomata.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Ban Du, the fruit of rambutan ( Nephelium lappaceum, June 2023, Maryam Fallahi, dried culture L 2-7 (MFLU 24-0259), living culture MFLUCC 24-0254 ;   Thailand, Chiang Rai Province, Mueang Chiang Rai District,  Doi Hang, on lemon drop mangosteen ( Garcinia intermedia), January 2023, Maryam Fallahi, dried culture MF 11-3 (MFLU 24-0257), living culture MFLUCC 24-0233  .</p><p>Notes.</p><p>The strain MFLUCC 24-0254 and MFLUCC 24-0233 clustered with strains of  Neopestalotiopsis formicidarum in the same subclade with 80 % ML bootstrap support and 0.90 BYPP (Fig. 28). The base pair differences between  N. formicidarum strains MFLUCC 24-0254 and ex-type CBS: 362.72 revealed a 0.79 % nucleotide difference in ITS (4 / 506 bp) and a 0.75 % difference in tub 2 (3 / 445 bp). They showed no difference in tef 1.  Neopestalotiopsis formicidarum (MFLUCC 24-0254) is similar to the ex-type strain of  N. formicidarum (CBS: 362.72) (Maharachchikumbura et al. 2014). However, it produces slightly shorter conidia than that of the ex-type strain with an L / W ratio = 3.6 (18.5–25.5 × 5–7.5 μm (mean = 22 × 6 μm) in  N. formicidarum (MFLUCC 24-0254) vs. 21–28 × 7.5–9.5 μm (mean = 24.6 × 8.6 μm) in  N. formicidarum (CBS 362.72, ex-type)).  Neopestalotiopsis formicidarum was first reported as a saprobic species collected from dead ants in Ghana and plant debris from Cuba (Maharachchikumbura et al. 2014). This is the first host record on rambutan and lemon drop mangosteen for  N. formicidarum worldwide.</p></div>	https://treatment.plazi.org/id/185522EE940B57A8A014E27D98ABBCD8	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
421E718AE31F5983AC8EB14B0F881D03.text	421E718AE31F5983AC8EB14B0F881D03.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Neopestalotiopsis Maharachch., K. D. Hyde & Crous	<div><p>Neopestalotiopsis Maharachch., K. D. Hyde &amp; Crous, Studies in Mycology 79: 135.</p><p>Notes.</p><p>This study reports three new host records for  Neopestalotiopsis formicarum and  N. zakeelii, and three unidentified species ( Neopestalotiopsis sp. 1,  Neopestalotiopsis sp. 2, and  Neopestalotiopsis sp. 3) that are in need of further collections’ analyses to be formally described. Herein, one new species,  Neopestalotiopsis theobromicola, is introduced.</p></div>	https://treatment.plazi.org/id/421E718AE31F5983AC8EB14B0F881D03	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
249134F358695EF5AE6E3EBDE1D68496.text	249134F358695EF5AE6E3EBDE1D68496.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Neopestalotiopsis theobromicola Fallahi, Jayawar. & K. D. Hyde 2025	<div><p>Neopestalotiopsis theobromicola Fallahi, Jayawar. &amp; K. D. Hyde sp. nov.</p><p>Fig. 31</p><p>Etymology.</p><p>‘ theobromicola ’ refers to the host plant genus from which the fungus was isolated.</p><p>Description.</p><p>Associated with leaf spots of  cacao ( Theobroma cacao). Sexual morph not observed. Conidiomata acervularon on PDA, aggregated and scattered, immersed and semi-immersed in agar medium, exuding black conidial mass. Conidiophores reduced to conidiogenous cells. Conidiogenous cells hyaline to pale brown, subcylindrical to ampuliform, 3–7 × 2–5 μm. Conidia clavate or fusiform, straight or slightly curved, yellow-brown to brown, 4 septate, 20–30 × 5–7.5 μm (mean = 26 × 6.5 μm, n = 30). Basal cell hyaline, conoid, with truncate base, 3.5–8 μm long; median cells, versicolored, darker than other cells, 14–19 μm long (mean = 17 μm, n = 30) (second cell from the base yellow-brown, 4–6.8 μm long; third cell from the base medium brown, 4.6–7 μm long; fourth cell from the base pale to medium brown, 4–7 μm long); apical cell hyaline, conic, 3–6 μm with 2–3 tubular apical appendages, hyaline, filiform, unbranched, and 15–29 μm long (mean = 22.5 μm, n = 30); basal appendage tubular, unbranched, solitary, hyaline, and 2–5.5 μm long.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 65–70 mm in diameter after seven days of growth at 25 ° C under 12 h daylight, white with moderate aerial mycelium, shape irregular, edge undulated, margin fluffy, with black conidial mass. The upper view is white, reverse honey-colored with age.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Phan District,  Sai Khao, on leaf spots in cacao ( Theobroma cacao), February 2023, Maryam Fallahi, dried culture MF 115-1 (MFLU 24-0258, holotype), ex-holotype culture MFLUCC 24-0253  .</p><p>Notes.</p><p>Strain MFLUCC 24-0253 formed an independent branch in the subclade, including the strains and ex-type strains of  Neopestalotiopsis acrostichi and  N. guajavicola with 75 % ML bootstrap support and 0.94 BYPP (Fig. 28), and is introduced here as a new species, namely  Neopestalotiopsis theobromicola . The base pair differences between  N. theobromicola strains MFLUCC 24-0253 (holotype) and MFLUCC 17-1754 (ex-type) revealed a 0.40 % nucleotide difference in ITS (2 / 504 bp, 3 gaps) and no difference in tef 1 and tub 2. The base pair differences between  N. theobromicola (ex-type strain MFLUCC 24-0253) and ex-type strains of  N. guajavicola (FMBO 129) revealed a 0.20 % nucleotide difference in ITS (1 / 506 bp), 0.26 % differences in tef 1 (1 / 426 bp), and 0.25 % differences in tub 2 (1 / 396 bp).  Neopestalotiopsis theobromicola (ex-type strain MFLUCC 24-0253) differs from the type strain of  N. acrostichi by having the conidia with 2-3 apical appendages ( N. acrostichi: conidia with 3-5 apical tubular appendages, (16 –) 19–28. 5 (– 33. 5) μm long) (Norphanphoun et al. 2019).  Neopestalotiopsis theobromicola (MFLUCC 24-0253) differs from the type strain of  N. guajavicola by having larger conidia with an L / W ratio = 4 (26 × 6.5 μm in  N. theobromicola (ex-type strain MFLUCC 24-0253) vs. 23.3 ± 1.6 × 6.5 ± 0.5 μm in  N. guajavicola (FMBO 129)) (UI Haq et al. 2021).</p></div>	https://treatment.plazi.org/id/249134F358695EF5AE6E3EBDE1D68496	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
19589A0D25845EB7BFF35705A2AF9CB4.text	19589A0D25845EB7BFF35705A2AF9CB4.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Neopestalotiopsis undefined-1	<div><p>Neopestalotiopsis sp. 1</p><p>Fig. 32</p><p>Description.</p><p>Pathogenic to sapodilla sapote ( Manilkara zapota) and causes circular to irregular brown lesions on leaves. Sexual morph not observed. Conidiomata acervular on PDA, solitary or aggregated, semi-immersed in agar medium, containing a dark mass of conidia. Conidiophores reduced to conidiogenous cells. Conidiogenous cells ampulliform to lageniform, hyaline, 3–15 × 2–5 μm. Conidia fusiform or spindle-shaped, straight to slightly curved, 4 - septate, 15–29 × 4–6.5 μm (mean = 22.4 × 5.3 μm, n = 30); basal cell conical, hyaline to pale brown, thin-walled, 3–5.6 μm long; the three middle cells brown to dark brown, with septa that are darker than the other cells, and 9–19 μm long (mean = 13.5 μm, n = 30). The second cell from the base 4–6.8 μm long; the third cell from the base 3.8–7.8 μm long; the fourth cell from the base 3.5–5.8 μm long; the apical cell conical, hyaline, thin-walled, 2.7–5 μm long, with 2–3 apical appendages (mostly 2), tubular, hyaline, unbranched, and 12.8–26 μm long. Basal appendage filiform, hyaline, unbranched, singular, and 3–9 μm long.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 40–50 mm in diameter after seven days of growth at 25 ° C under 12 h daylight, cottony, shape regular, circular. The upper view is white, and the reverse has yellow pigmentation, with black fruiting body clusters arising with age.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Doi Hang, leaf spots on sapodilla sapote ( Manilkara zapota), December 2022, Maryam Fallahi, dried culture MF 10-1 (MFLU 24-0254), living culture MFLUCC 24-0232  .</p><p>Notes.</p><p>Based on phylogenetic analysis of ITS, tub 2, and tef 1 sequence data, strain MFLUCC 24-0232 forms an independent branch with no bootstrap support (Fig. 28). Therefore, the MFLUCC 24-0232 was kept as an unidentified species,  Neopestalotiopsis sp. 1 on sapodilla sapote, until further collections become available.</p></div>	https://treatment.plazi.org/id/19589A0D25845EB7BFF35705A2AF9CB4	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
91BAA47F8C715C19BC2A58DFACAC7106.text	91BAA47F8C715C19BC2A58DFACAC7106.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Neopestalotiopsis undefined-2	<div><p>Neopestalotiopsis sp. 2</p><p>Fig. 33</p><p>Description.</p><p>Pathogenic to mangosteen ( Garcinia mangostana), causes dark, sunken lesions on the fruit surface, often starting near wounds or natural openings. Sexual morph not observed. Conidiomata acervular on PDA, solitary or aggregated, immersed or semi-immersed in agar medium, containing dark mass of conidia. Conidiophores reduced to conidiogenous cells. Conidiogenous cells ampulliform to lageniform, and hyaline, 3–8 × 2–5 μm. Conidia fusiform, 4 - septate, straight or slightly curved, 17–26 × 3.5–6.7 μm (mean = 21 × 5 μm, n = 40); basal cell conic, hyaline, 3–5.4 μm long; three median cells 12–18 μm long, brown to dark brown, septa darker than the rest of the cell; second cell from base brown, 3.5–6 μm long; third cell dark brown, 3–6 μm long; fourth cell darker, 2.7–6.5 μm long; apical cell 2.7–5.4 μm long, conic, hyaline, smooth-walled, with 2–3 (mostly 3) tubular apical appendages, 5.5–20 μm long. Basal appendage single, unbranched, tubular, centric, 3.9–8 μm long.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 40–50 mm in diameter after 7 days of growth at 25 ° C under 12 h daylight, cottony, with an irregular shape, edge undulate, aerial mycelium on the surface. Upper view white and the reverse primrose. Yellow pigment and black fruiting bodies appear with age.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Ban Du, the fruit of mangosteen ( Garcinia mangostana), June 2023, Maryam Fallahi, dried culture L 3-4 (MFLU 24-0260), living culture MFLUCC 24-0255  .</p><p>Notes.</p><p>Phylogenetic analysis based on ITS, tef 1, and tub 2 sequence data revealed that strain MFLUCC 24-0255 from the present study forms an independent subclade close to strains and type material of  Neopestalotiopsis clavispora,  N. cavernicola, and strain MFLUCC 24-0251 with no bootstrap support (Fig. 28); hence, we keep it as an unidentified species,  Neopestalotiopsis sp. 2, until more collections become available. The base pair differences between  Neopestalotiopsis sp. 2 (MFLUCC 24-0255),  N. clavispora (MFUCC 12-0281),  N. cavernicola (KUMCC 20-0269, ex-type), and  Neopestalotiopsis sp. 3 (MFLUCC 24-0251) are presented in Table 5. Based on asexual morph and morphology (Table 7),  Neopestalotiopsis sp. 2 (MFLUCC 24-0255) is different from the two well-known species mentioned above (Liu et al. 2021, Maharachchikumbura et al. 2012) as well as from  Neopestalotiopsis sp. 3 (MFLUCC 24-0251).</p></div>	https://treatment.plazi.org/id/91BAA47F8C715C19BC2A58DFACAC7106	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
8CDC850574D4597CAA2097DE4DBEBCEF.text	8CDC850574D4597CAA2097DE4DBEBCEF.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Neopestalotiopsis undefined-3	<div><p>Neopestalotiopsis sp. 3</p><p>Fig. 34</p><p>Description.</p><p>Pathogenic to guava ( Psidium guajava), and causes small brown leaf spots. Sexual morph not observed. Conidiomata acervular on PDA, solitary or aggregated, immersed or semi-immersed in agar medium containing the dark mass of conidia. Conidiophores reduced to conidiogenous cells. Conidiogenous cells ampulliform to lageniform, hyaline, 3–8 × 2–4 μm. Conidia, olivaceous to yellow-brown, fusiform, straight or slightly curved, 4 - septate, 21–29 × 4.5–6.5 μm (mean = 26 × 5.7 μm, n = 40); basal cell conic, hyaline, 4–7.3 μm long; three median cells 13–20.5 μm long, olivaceous to yellow-brown, septa darker than the rest of the cell; second cell from base yellow-brown, 4.5–9 μm long; third cell olivaceous, 4–7 μm long; fourth cell darker, 3–7 μm long; apical cell 4–5.5 μm long, conic, hyaline, smooth-walled, with 2–3 (mostly 2) tubular apical appendages, 3.5–18 μm long. Basal appendage single, unbranched, tubular, centric, 4–8 μm long.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 60–70 mm in diameter after 7 days of growth at 25 ° C under 12 h daylight, white, edge undulate, with aerial mycelium on the surface, and black fruiting bodies. The reversing turn pale luteous with age.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Phan District,  Sai Khao, leaf spots on guava ( Psidium guajava), February 2023, Maryam Fallahi, dried culture MF 107-1 (MFLU 24-0255), living culture MFLUCC 24-0251  .</p><p>Notes.</p><p>Based on phylogenetic analysis of ITS, tub 2, and tef 1 sequence data, strain MFLUCC 24-0251 formed an independent subclade close to strains and type material of  Neopestalotiopsis clavispora,  N. cavernicola, and  Neopestalotiopsis sp. 2 (MFLUCC 24-0255) with no bootstrap support (Fig. 28), hence it was kept as an unidentified species,  Neopestalotiopsis sp. 3 . The base pair differences between  Neopestalotiopsis sp. 3 (MFLUCC 24-0251) and  N. clavispora (MFUCC 12-0281),  N. cavernicola (KUMCC 20-0269, ex-type strain), and  Neopestalotiopsis sp. 2 are presented in Table 6. Based on conidial morphology and colour, the length of conidia, and apical and basal appendage (Maharachchikumbura et al. 2012; Liu et al. 2021),  Neopestalotiopsis sp. 3 (MFLUCC 24-0251) differs from the two above-mentioned species (Table 7).</p><p>Pathogenicity assay</p><p>Pathogenicity tests were conducted to verify the disease-causing capabilities of the strains of  Colletotrichum (five strains),  Diaporthe (six strains),  Fusarium (five strains), and  Neopestalotiopsis (five strains).</p><p>Pathogenicity tests were performed on five strains of  Colletotrichum spp., and all strains demonstrated pathogenicity towards their respective hosts, whereas the controls exhibited no symptoms (Fig. 35). Koch’s postulates were validated through the re-isolation of the same fungi and confirmation of their colony and morphological characteristics.</p><p>Pathogenicity tests were carried out on six strains of  Diaporthe spp., and all these strains demonstrated varying degrees of pathogenicity towards their host, while the controls remained symptom-free (Fig. 36). Koch’s postulates were validated through the re-isolation of the same fungi and confirmation of their colony and morphological characteristics.</p><p>Pathogenicity tests were carried out on five strains of  Fusarium isolated from specific hosts, and all the strains were able to infect their hosts, while the controls displayed no symptoms (Fig. 37). Verification of Koch’s postulates was achieved by re-isolating the same fungi and confirming their colony and morphological characteristics.</p><p>Pathogenicity tests were conducted on five strains of  Neopestalotiopsis spp. isolated from various host plants, and all the strains demonstrated pathogenic effects on their hosts, while the controls did not exhibit any symptoms (Fig. 38). Koch’s postulates were substantiated through the re-isolation of the same fungi and confirmation of their colony and morphological characteristics.</p></div>	https://treatment.plazi.org/id/8CDC850574D4597CAA2097DE4DBEBCEF	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
6917E7ACCE375599812529EA9EB04784.text	6917E7ACCE375599812529EA9EB04784.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Neopestalotiopsis zakeelii Prasannath, Akinsanmi & R. G. Shivas	<div><p>Neopestalotiopsis zakeelii Prasannath, Akinsanmi &amp; R. G. Shivas, Journal of Fungi 7: 12 (2021)</p><p>Fig. 30</p><p>Description.</p><p>Pathogenic to persimmon ( Diospyros ehretioides) and causes dark brown leaf spots. Sexual morph not observed. Conidiomata pycnidial on PDA, scattered, aggregated, immersed, or semi-immersed, with black conidial mass. Conidiophores reduced to conidiogenous cells. Conidiogenous cells hyaline, smooth, ampulliform to lageniform, 4–15 × 3–5 μm. Conidia medium to dark brown, fusiform to ellipsoidal, straight or curved, 4 - septate, 20–30 × 5–8 μm (mean = 22 × 6 μm, n = 30); basal cell conical, 2–4 μm long (mean = 3 μm), hyaline, smooth, thin-walled; basal appendage filiform, unbranched, centric, 2–4 μm long; three median cells doliiform, 11–17.5 μm (mean = 16 μm), smooth, septa darker than the rest of the cell (second cell from basal cell olivaceous to brown, 3.5–7 μm long (mean = 5.5 μm); third cell brown to dark brown, 3.5–7 μm long (mean = 5.3 μm); fourth cell medium brown, 4–7 μm long (mean = 5.5 μm)); apical cell conical to subcylindrical, 2–5 μm long (mean = 3 μm), hyaline, smooth, thin-walled, with 2–3 tubular apical appendages (mostly 2), unbranched, filiform, 6–21.5 μm long (mean = 12 μm). Basal appendage single, unbranched, tubular, centric, 2–8 μm long.</p><p>Culture characteristics.</p><p>Colonies on PDA reach 55–65 mm in diameter after 7 days of growth at 25 ° C under 12 h daylight, cottony, with abundant white aerial mycelium. Upper view white and the reverse primrose. Yellow pigment and black fruiting bodies appear with age on the agar medium.</p><p>Material examined.</p><p>Thailand • Chiang Rai Province, Mueang Chiang Rai District,  Doi Hang, leaf spots on persimmon ( Diospyros ehretioides), February 2023, Maryam Fallahi, dried culture MF 54-1 (MFLU 24-0256), living culture MFLUCC 24-0252  .</p><p>Notes.</p><p>Strain MFLUCC 24-0252 clustered in the same subclade with the strains of  Neopestalotiopsis zakeelii (BRIP 72282 a, holotype) with 85 % ML bootstrap support and 0.95 BYPP (Fig. 28). The base pair differences between  N. zakeelii strains MFLUCC 24-0252 and BRIP 72282 a revealed a 0.46 % (2 / 435 bp) nucleotide difference in tef and tub 2 and no differences in ITS.  Neopestalotiopsis zakeelii (MFLUCC 24-0252) is similar to the holotype of  N. zakeelii in morphology. It was first reported from flower blight of  Macadamia integrifolia in Australia (Prasannath et al. 2021). This study provides a new host and geographical record for  N. zakeelii on persimmon in Thailand.</p></div>	https://treatment.plazi.org/id/6917E7ACCE375599812529EA9EB04784	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.	Fallahi, Maryam, Armand, Alireza, Al-Otibi, Fatimah, Hyde, Kevin D., Jayawardena, Ruvishika S. (2025): Pathogenic fungi (Sordariomycetes) associated with annual and perennial crops in Northern Thailand. MycoKeys 117: 191-265, DOI: 10.3897/mycokeys.117.137112
