Malacoplax californiensis ( Lockington, 1877 )

Malacoplax californiensis ( Lockington, 1877) View in CoL

( Figs. 1–3 View Figure 1 View Figure 2 View Figure 3 )

Eucrate? californiensis Lockington, 1877: 33 .

Eucrate californiensis .– Brandão et al., 2012: 1.

Speocarcinus californiensis .— Holmes, 1900: 77.— Rathbun, 1904: 190, pl. 9, fig. 1.— Rathbun, 1918: 42,textfig. 16, pl. 10, figs 2, 3.— Schmitt, 1921: 249, textfig. 148, pl. 34, fig. 7.— Johnson and Snook, 1927: 398, fig. 346.— Glassell, 1934: 454.— Garth, 1960: 118.— Garth, 1961: 155.

Malacoplax californiensis View in CoL .– Guinot, 1969a: 259, textfigs 7, 11, 15, 27, 260.– Guinot, 1969b: 707.– Guinot, 1970: 1079.– Garth and Abbott, 1980: 612, fig. 25.30.– Hendrickx et al., 1983: 189.– Hendrickx, 1984: 34, pl. 2E, F.– Ricketts et al., 1985: 357, fig. 274.– Martin and Abele, 1986: 186, fig. 4G.– Hubbard and Dugan, 1989: 55.– Hendrickx, 1993a: 314 (list18).– Hendrickx,1993b:10.– Campos et al., 1995: 177.– Hendrickx, 1995a: 139.– Jensen, 1995: 33, fig. 30.– Hendrickx, 1996: 615.– Hendrickx, 2005: 187.– McLaughlin et al., 2005: 258, 319.– Arzola-González and Flores-Campaña, 2008: 43.– Ng et al., 2008: 189.– Vargas-Castillo, 2008: 109 ( Table 1 View Table 1 ), 110.– Felder and Thoma, 2010: 133, fig. 5, Appendix 1.– Campos and de Campos, 2012: 3.– Wicksten, 2012: 241 View Cited Treatment , fig. 56A.– Jensen, 2014: 37, textfig.– Thoma et al., 2014: 89 ( Table 1 View Table 1 ), 93, 102, fig. 1.– Cortés, 2017: Appendix 1 (on line).

Material examined. Estero El Verde (23°25’30”N 106°33’00”W), December 11, 1979, 1 male (CW 11.9 mm), dredge (ICML-EMU-643) (Id. M.K. Wicksten) (see Hendrickx, 1984).

Estero de Urías (23°12’27”N 106°23’06”W), January 22, 1982, 1 female (CW 18.4 mm), beam trawl, 2–4 m (ICML-EMU-5463) (Coll. M. Hernández-Garza) GoogleMaps .

Agua Brava coastal lagoon (approximately 22°08’N 105°33’W), October 16, 1985, 2 males (CW 12.6–14.0 mm) and 1 female (CW 8.7 mm), intertidal, hand taken (ICML-EMU-3479).

CORTES 2, St. 25 (29°12’30”N 112°31’24”W), March 18, 1985, 1 male (CW 12.7 mm), 110–114 m, Otter trawl; St. 42 (30°11’54”N 112°47’W), March 17, 1985, 2 females (CW 4.5–4.9 mm), 32–34 m, Otter trawl (ICML-EMU-3478-A); St. 52 (25°40’06”N 109°28’48”W), March 20, 1985, 2 males (CW 4.6– 11.1 mm) and 2 females (CW 5.8 mm), Van Veen grab, 31m (ICML-EMU-3478-B), and 4 males (CW 5.2–14.7 mm), 4 females (CW 5.2–8.5 mm), 1 juvenile (CW 3.5 mm), and 1 specimen infested with Rhizocephala (CW 6.0 mm), Smith McIntyre grab (ICML-EMU-3478-C).

CORTES 3, St. 32 (29°46’24”N 114°19’18”W), August 3, 1985, 2 males (CW 7.6–12.1 mm), 3 females (CW 6.9–10.7 mm), 1 ovigerous female (CW 9.4 mm), and 1 specimen infested with Rhizocephala (CW 6.3 mm) (ICML-EMU-3477-A), 1 female (CW 6.8 mm) and 1 ovigerous female (CW 9.4 mm) (ICML-EMU-4002), 25–29 m, Van Veen grab; St. 42 (30°12’42”N 112°47’42”W), August 5, 1985, 8 males (CW 4.2–7.7 mm) and 8 females (CW 3.5–6.5 mm), 30 m, Otter trawl (ICML-EMU-3478-D); St. 49C (27°00’24”N, 111°59’12”W), August 7, 1985, 1 female (CW 10.1 mm), 23 m, Otter trawl (ICML-EMU-3477-B).

Santa Maria-La Reforma Bay (20°06’N, 108°08’W), March 30, 2005, 1 male (CW 21.7 mm) and 4 females (CW 4.8–16.3 mm), Yabby pump, muddy intertidal with stones and shell debris (ICML-EMU-12090) GoogleMaps .

Estero de Urías (23°10’N 106°20’W), March 14, 2008, 1 male (CW 5.8 mm) and 2 females (CW 8.0– 10.4 mm), (ICML-EMU-9486) (Coll. L. Sauma) GoogleMaps .

Estero de Urías (23°12’N 106°23’W), December 4, 2017, 3 males (CW 9.3–12.7 mm) and 4 females (CW 10.0– 15.5 mm), Yabby pump, muddy intertidal with some rubble (ICML-EMU-12091) GoogleMaps .

Previously reported localities. San Diego (type locality), and San Pedro, California, USA ( Holmes, 1900). Venice and Alamitos Bay, California ( Rathbun, 1918). Anaheim Creek, California ( Schmitt, 1921). Mugu Lagoon, California, USA; San Luis Gonzaga Bay, Baja California and Punta Rocosa, Sonora, Mexico ( Garth, 1960). Puerto Parker, Puerto Culebra and Golfo Dulce, Costa Rica ( Garth, 1961). Angeles Bay, Baja California, Mexico ( Guinot, 1969a). The locality “Ansheim Bay” given by Guinot (1969a) is Schmitt’s (1921) Anaheim Creek (Orange County). Marina del Rey, Los Angeles, and “Estero” El Verde, Sinaloa, Mexico ( Hendrickx, 1984; Arzola-Gonzaléz and Flores-Campaña, 2008). Conchalito, La Paz (approximately 24°10’N 110°25’W), Baja California Sur, Mexico ( Campos et al., 1995). Gulf of Papagayo and Salinas Bay, La Cruz, Costa Rica ( Vargas-Castillo, 2008; R. Vargas-Castillo pers. comm, 2018). Morro Bay, California, and Magdalena Bay, Baja California, Mexico ( Wicksten, 2012). Punta Banda Estuary(approximately 31°48’N 116°48’W), near Ensenada, Baja California ( Campos and de Campos, 2012). Gulf of California, Baja California Sur, Mexico (no further information) ( Felder and Thoma, 2010; Thoma et al., 2014).

New localities. A total of nine new localities are reported herein ( Fig. 4 View Figure 4 ), all in the Gulf of California, Mexico.

General distribution. Tropical eastern Pacific from Morro Bay, California, USA, to Golfo Dulce, Costa Rica.

Habitat and bathymetry. In holes on muddy beaches (California; Holmes, 1900). In depths of 11–27 m, sandy mud, crushed shell, mangrove leaves, mud and shell ( Garth, 1961). Secondary channel, coastal lagoon, close to mangroves; 1 m depth, brackish water (22 ‰) ( Hendrickx, 1984). In burrows in estuaries, muddy substrate ( Campos et al., 1995; Campos and de Campos, 2012). From intertidal to 33 m depth ( Garth and Abbott, 1980; Wicksten, 2012). Material examined is from intertidal, in a muddy environment, to 110–114 m on the shelf. Environmental conditions associated with the crabs collected on the continental platform were: water temperature, 12.4–27.0°C; dissolved oxygen, 1.9–5.0 ml/l O2; 58–98% sandy sediments, occasionally with significant portion of lime ( Table 1 View Table 1 ). Jensen (2014) considered that M. californiensis is virtually extinct in the USA, at least in the intertidal.

Maximum size. Males, CL 16.0 mm, CW 22.6 mm ( Rathbun, 1918). Examined material: males, CW 4.6–21.7 mm; females CW 3.3–16.3 mm; ovigerous females, CW 9.4 mm. Males from 4.6 mm CW and females from 3.5 mm CW show early development of sexual appendages. Two small specimens (CW 6.0 and 6.3 mm CW) were infested with Rhizocephala ( Fig. 2A View Figure 2 ) and no information seems to be available on the presence of this parasite in M. californiensis .

Remarks. Malacoplax californiensis ( Fig. 1 View Figure 1 ) appears to be widely distributed in the Gulf of California and occurs in both shallow and deep (> 100 m depth) environment. Consequently, it occurs in a wide range of water temperature considering that high water temperature are common in the intertidal environment in tropical-subtropical regions.

Guinot (1969a) considered the affinities of the monospecific genus Malacoplax to be close to the Panopeidae , particularly because of the shape and structure of the first gonopods (i.e., distinctly trilobed). Although drawn at a slightly different angle, the illustrations provided by Guinot (1969a, fig. 27b) for the first gonopod of a male 14 mm CW closely resembles the typical, trilobed panopeid-like gonopod of two males (CW 11.1 and 11.9mm) examined herein ( Figs. 2B View Figure 2 , 3 View Figure 3 ).The series of long spines near the tip (some missing in the larger specimen examined) ( Fig. 3 View Figure 3 ) and the row of six subterminal, blunt spines ( Figs. 2B View Figure 2 , 3 View Figure 3 ) were illustrated by Guinot (1969a: fig. 27) and partly reproduced by Martin and Abele (1986: fig. 4G).

Guinot (1978: 276) considered Malacoplax to be part of the Eucratopsinae. While reviewing the affinities of American mud crabs based on nuclear and mitochondrial markers, however, Thoma et al. (2014: 93) considered M. californiensis to be included in a moderately well-suported Panopeidae s.s. clade together with Tetraplax quadridentata ( Rathbun, 1898) , Cyrtoplax spinidentata ( Benedict, 1892) and four species of Eurytium Stimpson, 1859 , the later four species forming a better-supported clade by their own. According to Thoma et al. (2014: 96), the former three species are included in a well-supported monophyletic clade and appear to be united by structure of the thoracic sternum, although the same authors ( Thoma et al., 2014: 99) later considered this clade ( Malacoplax , Tetraplax , Cyrtoplax ) as “unsupported” without further comments. Although they emphasized that these three taxa share a similar general morphology and feature a greater exposure of penis between sternites 7 and 8 than in other taxa, they leave their affinity within the panopeids as an open question.

Environmental issues. California records of M. californiensis , a species originally described from San Diego, are scarce and mostly previous to 1960 ( Holmes, 1900; Rathbun, 1918; Schmitt, 1921; Garth, 1960). According to Wicksten (2012), M. californiensis is uncommon and might represent an endangered species. Jensen (2014) considered it to be extinct in the area. Coastal habitats where this species has been recorded (e.g., the muddy bottom in the San Diego and San Pedro areas) have been strongly modified due to population increase and constructions leading to habitat loss ( Anonymous, 1992; UCAIC, 2009; M.K. Wicksten pers. comm., August 2018). Southern California has been particularly affected by habitat loss (80% of wetlands have been lost since 1990) ( Suchanek, 1994; Anonymous, 2018). Human actions are significantly more impactful and persistent, and protecting (or restoring) entire coastal habitat is considered one of the best way to keep marine life healthy.

Although the type locality of M. californiensis is in southern California, it might represent one of these tropical-subtropical species that extends its distribution north of the Magdalena Bay area (on the west coast of the Baja California Peninsula), taking advantage of temporary coastal increases of water temperature to the north during El Niño events (see Garth, 1960), a process that might be strongly enhanced by global warming. Our study shows that there are more records of M. californiensis in the Gulf of California than previously thought, thus favoring the hypothesis of a tropical-subtropical origin for dispersion.