Entomobrya ledesmai Jordana & Baquero, 2021

Baquero, Enrique, Jordana, Rafael & Ortuño, Vicente M., 2021, Distinctive Collembola Communities in the Mesovoid Shallow Substratum: Entomobryomorpha of the Sierra de Guadarrama National Park (Central Spain), Zoosystema 43 (3), pp. 37-78 : 54-56

publication ID

https://doi.org/ 10.5252/zoosystema2021v43a3

publication LSID

urn:lsid:zoobank.org:pub:EA621D7C-F9AE-460B-8EBF-9E932862D4FE

DOI

https://doi.org/10.5281/zenodo.4488281

persistent identifier

https://treatment.plazi.org/id/689294BD-51C9-4D4D-9E44-948B53C2F0C2

taxon LSID

lsid:zoobank.org:act:689294BD-51C9-4D4D-9E44-948B53C2F0C2

treatment provided by

Felipe

scientific name

Entomobrya ledesmai Jordana & Baquero
status

sp. nov.

Entomobrya ledesmai Jordana & Baquero n. sp.

( Figs 8B View FIG ; 10 View FIG ; Table 4)

urn:lsid:zoobank.org:act:689294BD-51C9-4D4D-9E44-948B53C2F0C2

TYPE MATERIAL. — Holotype. Spain • ♀; Madrid, Sierra de Guadarrama, Cuerda Larga and associated mountainous complex, Cabeza de Hierro Mayor Menor (crest); 30T 4211 45168; 2301 m a.s.l.; 6.XI.2015; Ortuño et al. leg.; pitfall SSD (since 3.VII.2015); MZNA SSD-29 (slide 13).

Paratypes. Spain • 4 specimens; same data as for holotype, slide 09; Ortuño et al. leg.; MZNA 1 juvenile and approximately 4000 in ethyl alcohol; same data, slide 12 2 specimens; SSD-2 (1 m depth) on slide 02; same data; MZNA 1 specimen; SSD-30 on slide 04; same data; MZNA 10 specimens in ethyl alcohol; SSD-29 ; same data; MNHN.

TYPE LOCALITY. — Spain, Madrid, Sierra de Guadarrama, Cuerda Larga and associated mountainous complex, Cabeza de Hierro Mayor Menor (crest); 30 T 4211 45168; 2301 m a.s.l.

ETYMOLOGY. — This species is dedicated to the biologist Enrique Ledesma, a very active participant in the sampling of the mesovoid shallow substratum.

DIAGNOSIS. — White species, with patches of pigmentation not only transversal, 2-4 Mc on areas T1-T2 on ThII, 2-2/1-0-1 Mc on areas A1-A5 on AbdII-III, and without Mc on A8 on Abd IV. The unequivocal identification of the species can only be done using the abbreviated formula that, for this species, is: 3-1-0-2-2/2- 4/2-2/1-0-1/0-3-0- 102 -2.

DESCRIPTION

Size and color

Body length: 2.12 mm, up to 2.33 mm (n = 7), excluding antennae. Ground color white or very pale yellow, with pigment as small patches as in Figure 8B View FIG ; head with pigment between eyes and vertex, and on antennae on internal AntI and from Ant II to IV.

3e

Head

Eight eyes, GH smaller than EF. Antennae length 1.10- 1.43 mm, 3.20 times the length of the head; relative length of Ant I/II/III/IV = 1/2.64/2.40/2.37 (n =7); sensory organ of Ant III with the special rod-like sensilla, and three additional guard sensilla ( Fig. 10B View FIG ); Ant IV with apical vesicle bilobed. Prelabral chaetae ciliated.Labral papillae multispinose ( Fig. 10C View FIG ). Lateral process of labial papilla E not reaching the apex of the papilla. Labial chaetae ciliated: only one M, and R half of a M.

Body and legs

Length ratio of Abd IV/III =4.27 (n = 7). Microchaetae on body relatively broadened ( Fig. 10G View FIG ). Tibiotarsus sub-segmented, without smooth chaetae, except for smooth terminal chaeta on legs III. Claw with four teeth: paired at 50% and first unpaired at 70% from base; dorsal teeth not basal, in an intermediate position between base and paired internal teeth ( Fig. 10H View FIG ). Empodium lanceolate, with serrate external lamella (pe) in leg III.Tenent hair clavate.Trochanteral organ with approximately 22 chaetae ( Fig. 10I View FIG ). Length of manubrium and dens 0.44 and 0.55 mm, respectively. Manubrial plate with four chaetae and two pseudopores. Non-ringed part of dens two times the length of mucro; mucro with teeth similar in size, mucronal spine reaching the tip of the subapical tooth.

Macrochaetotaxy ( Fig. 10A View FIG , D-F)

Simplified Mc formula: 3-1-0-2-2/2-4/2-2/1-0-1/0-3-0- 10 2-2. Head: H1 area with Mc An 2, An 3a1 and An 3; H2 area with one Mc (A 5); H4 area with two Mc (S 1 and S 3); H4’ area with three Mc (S 5, S 5i and S 4); H5 area with Ps 2 and Ps 5. Mesothorax: area T1 with two Mc (m 1 and m 2i); T2 with four Mc (m 4, m 4i, a 5 and m 5). Abdomen: Abd II area A1 with two Mc (a 2 and a 3), area A2 with two Mc (m 3 and m); Abd III with one Mc each on areas A3 (a 1) and A5 (m 3); Abd IV with three Mc on A7 area (A3, B3 and C1), three Mc on A9: one unpaired (A 05). A 5 and B 5, and two on A10 (A 6 and B 6).

ECOLOGY

Unlike what was observed with E. guadarramensis Jordana & Baquero n. sp., the high activity values shown by E. ledesmai Jordana & Baquero n. sp., do not correspond to wide distribution. It has been found in the MSS of only three sites, located in two mountain ranges ( Fig. 1B, C View FIG ), in the forest strip of the oro-Mediterranean zone and in the cryo-Mediterranean. Using reasonable interpolation, it is most likely also found in the supraforestal area of the Mediterranean. Almost all of the specimens (4106 of 4109) come from SSD-29, installed in the Canchal between Cabeza de Hierro Mayor and Menor ( Fig. 3E, F View FIG ), an extreme climate site that shows very little vegetation cover ( J. communis alpina ) and an eminently mineral substrate. Entomobrya ledesmai Jordana & Baquero n. sp. is the most abundant species at this site compared to other seven syntopic species ( Figs 1C, F View FIG ; 3F View FIG ) with a total of 4192 specimens ( Fig. 1E View FIG ), with a dominance of 98%.

REMARKS

If we consider the dorsal macrochaetotaxy of the abdominal tergites Abd II-III using the simplified formula, 2-2/1-0-1, it is close to E.intermedia sensu Katz et al. (2015) , E. lawrencei Baquero & Jordana, 2008 , E. luquei Jordana & Baquero, 2006 , E. nicoleti ( Lubbock, 1868) , E. rubella Latzel, 1918 and E. siciliana Jordana, Giuga & Baquero, 2011 .

Katz et al. (2015) found an Entomobrya captured in Chester ( USA) and ascribed the specimen to E. intermedia . Some specimens of E. intermedia from England were studied for the review of the palearctic Entomobryinae (specimens from different parts of the United Kingdom sent to Rafael Jordana by Peter Shaw) ( Jordana 2012). The coloration of both populations is similar but the macrochaetotaxy is different: H4 ( Jordana & Baquero 2005) has three chaetae in the specimens from England, one (sometimes an additional mes) in the American specimen; A2 has four Mc in the English form (m 3, m 3ep, m 3e and m 3ei), two in the American form (m 3 and m 3e); A7 has more Mc in the English form than in the American form; in addition, the labral papillae are smooth in the English specimens and multispinate in the American specimen. Given these differences and the geographical origin of the specimens, we consider E.intermedia sensu Katz et al. (2015) to be a new species of Entomobrya from the USA, denominated Entomobrya katzi Jordana & Baquero n. sp., with an abbreviated formula 3-2-0-1-2/3-5/2-2/1-0-1/0-4-0-2-2.

Table 4 shows that the new species differs by multiple characters from the species with which it shares the simplified formula of Abd II-III.

Entomobrya ledesmai Jordana & Baquero n. sp. represented 18% of the total Entomobryomorpha studied in this work, ( Fig.1D View FIG ), and 19% of Entomobryidae (not including Orchesella ) ( Fig. 2A, B View FIG ), i.e., it is the third species in the dominance rank.

MZNA

Spain, Pamplona,Universidad de Navarra, Museum of Zoology

MZNA

Universidad de Navarra, Museum of Zoology

MNHN

Museum National d'Histoire Naturelle

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