identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
992457192C784F5136021486FCBBF82B.text	992457192C784F5136021486FCBBF82B.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Pristimantis flavus Mônico & Courtois & Koch & Dewynter & Kok 2025	<div><p>Pristimantis flavus sp. nov.</p><p>urn:lsid:zoobank.org:act: CF930E93-6DE3-4091-92C4-4D4DA212D154</p><p>Figs 2–5</p><p>Pristimantis sp. nov. – Blanc 2016: 330.</p><p>Pristimantis aff. pluvialis – Fouquet et al. 2019a: 367; 2024: 480. — Vacher et al. 2020: table s1. Pristimantis sp. 5 – Dewynter et al. 2020: 32; 2021: 32. — Lescure et al. 2022: 7.</p><p>Diagnosis</p><p>The assignment of the new species to the Pristimantis lacrimosus species group is based on molecular phylogeny (Fig. 1) and the presence of hyperdistal subarticular tubercles (see Ron et al. 2020). Pristimantis flavus sp. nov. is characterized by the following combination of characters: (1) skin on dorsum smooth with scattered tubercles, gular region smooth, belly and ventral surface of the thighs slightly granular; discoidal fold absent; dorsolateral folds absent; (2) tympanic membrane and tympanic annulus present, round, its length 34–38% of eye diameter; (3) snout moderate in length, subacuminate in dorsal view, truncate in lateral view; loreal region slightly concave; (4) interorbital region flat, broader than upper eyelid; cranial crests absent; upper eyelid tubercles present; (5) dentigerous processes of vomers absent; (6) males with vocal slits, nuptial pads absent; vocal sac large and subgular; (7) Finger I slightly shorter than Finger II; discs of digits expanded; discs rounded on fingers I and II, and truncate on fingers III and IV; (8) fingers without lateral fringes; palmar tubercle diffuse, thenar tubercle almost triangular, both the same size; hyperdistal subarticular tubercles present; (9) four to five ulnar tubercles, low and rounded, aligned; (10) heel smooth; three tarsal tubercles, ovoid, aligned; inner tarsal fold absent; (11) inner metatarsal tubercle ovoid, three times the size of round outer metatarsal tubercle; supernumerary plantar tubercles present; (12) toes without lateral fringes; basal toe webbing absent; Toe V longer than Toe III (disc on Toe III reaches the medial subarticular tubercle on Toe IV, while disc on Toe V reaches the distal subarticular tubercle on Toe IV); hyperdistal subarticular tubercles present; toes discs less expanded than the fingers discs (discs rounded on toes I and II, and truncate on fingers III–V); (13) in life, dorsal surfaces of body and limbs bright yellow, with a distinct dark brown interorbital line; canthal stripe and supratympanic fold darker; lips vivid yellow; flanks paler than dorsum; gular region bright yellow with brown melanophores; chest yellow; belly light yellow; iris copper with an ill-defined dark copper horizontal streak; (14) SVL 18.6–21.8 mm (n = 7) in males, female unknown; and (15) advertisement call consisting of 1–4 short notes, with duration of 37–81 ms, and a dominant frequency at 2.799 –3.187 Hz.</p><p>Etymology</p><p>The specific epithet ‘ flavus ’ is an adjective that refers to the yellow coloration of males in life.</p><p>Type material</p><p>Holotype FRENCH GUIANA • adult ♂, SVL 19.3 mm; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=-54.44917&amp;materialsCitation.latitude=2.2355556" title="Search Plazi for locations around (long -54.44917/lat 2.2355556)">Maripasoula</a> municipality, collected at Massif du Mitaraka; 2°14′08″ N, 54°26′57″ W; 330 m a.s.l.; datum WGS-84; 26 Feb. 2015; A. Fouquet, M. Dewynter and N. Vidal leg.; MNHN-RA-2023.0010 (field no. AF2782).</p><p>Paratypes FRENCH GUIANA – Maripasoula municipality • 3 adult ♂♂; Pic Coudreau du Sud; 2°15′12″ N, 54°21′12″ W; 382 m a.s.l.; datum WGS-84; 11 Feb. 2013; M. Blanc leg.; MNHN-RA-2023.0006 to MNHN-RA-2023.0008 (field numbers AF915 to AF917, respectively) • 3 adult ♂♂; same locality as for holotype; 2–27 Feb. 2015; A. Fouquet, M. Dewynter and N. Vidal leg.; MNHN-RA-2023.0009, MNHNRA-2023.0011, MNHN-RA-2023.0012 (field numbers AF2764, AF2783 and 2782, respectively) .</p><p>Description of the holotype (MNHN-RA-2023.0010, field number AF 2752; Figs 2, 3A, 4A)</p><p>Adult male, 19.3 mm SVL; head narrower than body, 22.8% of SVL; head wider than long; head width 36.3% of SVL; snout subacuminate in dorsal view, truncate in lateral view; loreal region slightly concave; eye large, 61.4% of head length, its diameter 1.23 times its distance from the nostril; nostrils protuberant, situated close to snout; canthus rostralis weakly concave in dorsal view, slightly rounded in profile; loreal region slightly concave; lips rounded; dorsal surface of head smooth, lacking tubercles; upper eyelid width smaller than interorbital distance; interorbital region flat; tympanic annulus present, rounded, tympanic membrane present but undifferentiated; postrictal ridges or tubercles absent. Choanae ovoid, small, positioned anterior and laterally, widely separated from each other, not concealed by palatal shelf of maxilla; dentigerous processes of vomers present, oblique.</p><p>Skin on dorsum and flanks smooth with few scattered tubercles; gular region smooth; belly and ventral surface of the thighs slightly areolate; discoidal folds absent; dorsolateral folds absent. Three ulnar tubercles, discrete and rounded; palmar tubercle almost triangular, same size as diffuse thenar tubercle; supernumerary palmar tubercles present; subarticular tubercles prominent, ovoid in ventral view, rounded in lateral view; hyperdistal subarticular tubercles present; fingers lacking lateral fringes; fingers length when adpressed, 3&gt; 4&gt; 2&gt; 1; discs of digits expanded, rounded on fingers I and II, and truncate on fingers III and IV, pads with strongly defined circumferential grooves. Tibia length 52.3% of SVL; foot length 43.5% of SVL; hindlimbs surfaces shagreen, posterior surface granular; heel lacking tubercles; tarsus with three tubercles, ovoid, aligned; inner metatarsal tubercle ovoid, three times the size of rounded outer metatarsal tubercle; inner tarsal fold absent; supernumerary plantar tubercles present, but poorly visible; subarticular tubercles rounded; hyperdistal subarticular tubercles present; toes lacking lateral fringes; basal toe webbing absent; toes discs less expanded than the fingers discs, rounded on toes I and II, and truncate on fingers III– V; toes ventral pads strongly defined by circumferential grooves; toe lengths, when adpressed, 4&gt;5&gt; 3&gt;2&gt;1. All morphometric measurements are provided in Table 2.</p><p>COLOR OF HOLOTYPE. In life, background color yellow; snout vivid yellow, a distinct dark brown interorbital bar present; canthal stripe and supratympanic folds diffuse, dark brown; lips vivid yellow; flanks paler than dorsum and translucent (Fig. 3A); gular region bright yellow with small brown melanophores, which fade and disappear in the central part of the throat; chest yellow; belly light yellow, translucent; ventral surfaces of forearms and hindlimbs light yellow dorsal surfaces with scattered brown melanophores (Fig. 4A); iris copper, with fine dark brown reticulation and an ill-defined dark copper horizontal streak. After nine years in preservative (ethanol 70%), the dorsum background color turned reddish beige with a dark brown interorbital bar; canthal stripe and supratympanic fold dark brown; venter cream and translucent; ventral surface of limbs with scattered small melanophores (Fig. 2).</p><p>Intraspecific variation</p><p>Dorsal color varies depending on light and/or temperature conditions; individuals are paler at night than during the day (Fig. 3). The dorsal color pattern of some individuals had a more discrete loreal coloration (Fig. 3C) and some individuals had a lighter interorbital bar (Fig. 3B). The ventral coloration varies from light yellow to yellow, and the melanophores in the gular region vary in size (Fig. 4). Although the general dorsal tubercles pattern remains the same, the individuals displayed changes in the size of the tubercles during handling, going from prominent to flat (Fig. 3). Dentigerous process of vomer varies in size from medium to very small, almost indiscernible in some individuals.</p><p>Advertisement call</p><p>The advertisement call of Pristimantis flavus sp. nov. (n = 4 males) consists of short and powerful ‘tk’ sounds, similar to tongue clicks (Fig. 5). It is composed of 1–4 notes (n = 69 calls) – most commonly consisting of two notes (n = 34). Call length ranges from 42–851 ms and depend on the number of notes [i.e., calls of a single note are 61 ± 2 ms (42–85 ms), calls of two notes are 289± 6 ms (182–431 ms), calls of three notes are 432± 8 ms (340–548 ms), while calls of four notes are 749± 9 ms (683–851 ms)]. Regardless of the number of notes, the silence between calls is relatively homogeneous, with an average of 1.246 ±47 ms (509–2.690 ms). The notes are tonal and short, with a note length of 49 ± 11 ms (37– 81 ms), and silence between notes of 176 ± 5 ms (101–269 ms). Males were found calling in chorus, typically calling for about one minute starting with a single note and gradually increasing the number of notes towards to the end of the call at a rate of 43 ±4 (38–46) calls per minute. They then remain silent for another minute before starting to call again. This behaviour was observed throughout the night. Calls were emitted with a minimum frequency of 2.545 ± 54 Hz (2.402 –2.657 Hz), maximum frequency of 3.457±199 Hz (3.184 –3.753 Hz) and dominant frequency of 2.987± 125 Hz (2.799 –3.187 Hz) (Fig. 5). Temporal and spectral traits summarized, according to individual call arrangement, are presented in Table 3.</p><p>Differential diagnosis</p><p>Morphology</p><p>Pristimantis flavus sp. nov. is distinguished by its smaller SVL in males (18.6–21.8 mm) from the following close relatives: P. calima (24.0 mm; Ospina-Sarria &amp; Duellman 2019), P. degener (22.2 mm; Lynch &amp; Duellman 1997), P. ecuadorensis (25.4 mm; Guayasamin et al. 2017), P. jorgevelosai (24.3– 29.8 mm; Lynch 1994), P. kalamandeenae (22.1 mm; Means et al. 2023), P. latericius (22.2–25.1 mm; Duellman &amp; Lehr 2009), P. mindo (24.49–27.4 mm; Arteaga-Navarro et al. 2013), P. nyctophylax (21.9– 31.4 mm; Lynch 1976), P. padiali (26.5 mm; Moravec et al. 2010), P. pluvialis (21.8–26.9 mm; Shepack et al. 2016), P. romeroae (23.8 mm; Ron et al. 2020), P. schultei (23.5–26.6 mm; Duellman 1990); and larger SVL in males than P. amaguanae (16.3 mm; Ron et al. 2020) and P. pseudoacuminatus (12.7– 17.6 mm; Duellman &amp; Lehr 2009).</p><p>The bright yellow to tan dorsal coloration readily distinguishes P. flavus sp. nov. from all species with greenish dorsal coloration: P. acuminatus (greenish yellow; Ortega-Andrade et al. 2015), P. amaguanae (olive green or olive brown; Ron et al. 2020), P. aureolineatus (olive green; Guayasamin et al. 2006), P. bromeliaceus (pale green to olive; Lynch 1979), P. calima (dull green, reddish brown, or olive brown; Ospina-Sarria &amp; Duellman 2019), P. ecuadorensis (greenish yellow with transverse black stripes; Guayasamin et al. 2017), P. enigmaticus (greenish yellow; Ortega-Andrade et al. 2015), P. galdi (green; Duellman &amp; Lehr 2009), P. limoncochensis (greenish yellow; Ortega-Andrade et al. 2015), P. loeslein (yellowish green to olive-green; Castillo-Urbina et al. 2023), P. moro (green with reddish head; Savage 2002), P. nankints (lime green to olive green; Ron et al. 2020), P. olivaceus (olive green; Köhler et al. 1998), P. omeviridis (greenish yellow; Ortega-Andrade et al. 2015), P. padiali (bright green to yellowish green; Moravec et al. 2010), P. petersioides (dark greenish brown, olive green, to pale yellowish green; Carrión-Olmedo &amp; Ron 2021), P. pseudoacuminatus (green marbled with brown; Duellman &amp; Lehr 2009), P. rhodostichus (green with red and tan marks; Duellman &amp; Pramuk 1999), P. tantanti (green with white spots; Lehr et al. 2007) and P. zorro (light green to green-yellow; Rivera-Correa &amp; Daza 2020).</p><p>The new species is further distinguished from P. acuminatus (Ortega-Andrade et al. 2015), P. limoncochensis (Ortega-Andrade et al. 2015), P. moro (Savage 2002) and P. tantanti (Lehr et al. 2007) by the presence of a tympanic annulus; from P. amaguanae (Ron et al. 2020), P. enigmaticus (Ortega-Andrade et al. 2015), P. kalamandeenae (Means et al. 2023), P. limoncochensis (Ortega-Andrade et al. 2015), P. omeviridis (Ortega-Andrade et al. 2015), P. padiali (Moravec et al. 2010) and P. tantanti (Lehr et al. 2007) by the presence of vocal slits in males; from P. acuminatus (Ortega-Andrade et al. 2015), P. aureolineatus (Guayasamin et al. 2006), P. calima (Ospina-Sarria &amp; Duellman 2019), P. crucifer (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. eremitus (Lynch 1980a), P. galdi (Duellman and Lehr 2009), P. jorgevelosai (Lynch 1994), P. lacrimosus (Duellman &amp; Lehr 2009), P. latericius (Duellman &amp; Lehr 2009), P. loeslein (Castillo-Urbina et al. 2013), P. pardalinus (Lehr et al. 2006), P. romeroae (Ron et al. 2020) and P. waoranii (McCracken et al. 2007) by the absence of nuptial pads; and from P. amaguanae (Ron et al. 2020), P. mendax (Duellman, 1978), P. pulchridormientes (Chávez &amp; Catenazzi 2016) and P. zimmermanae (Heyer &amp; Hardy 1991) by the presence of dentigerous processes of vomers.</p><p>Pristimantis flavus sp. nov. is distinguished from all species in the group by its unique combination of body tubercles, i.e., the presence of upper eyelid tubercles vs absence in P. acuminatus (Ortega-Andrade et al. 2015), P. aureolineatus (Guayasamin et al. 2007), P. degener (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. enigmaticus (Ortega-Andrade et al. 2015), P. kalamandeenae (Means et al. 2023), P. lacrimosus (Duellman &amp; Lehr 2009), P. limoncochensis (Ortega-Andrade et al. 2015), P. moro (Savage, 2002), P. nankints (Ron et al. 2020), P. omeviridis (Ortega-Andrade et al. 2015), P. ornatissimus (Lynch 1970), P. padiali (Moravec et al. 2010), P. pulchridormientes (Chávez &amp; Catenazzi 2016), P. schultei (Duellman 1990), P. subsigillatus (Lynch 1980b), P. tantanti (Lehr et al. 2007), P. waoranii (McCracken et al. 2009) and P. zorro (Rivera-Correa &amp; Daza 2020); the presence of ulnar tubercles vs absent in P. bromeliaceus (Lynch 1979), P. ecuadorensis (Guayasamin et al. 2017), P. lacrimosus (Duellman &amp; Lehr 2009), P. ornatissimus (Lynch 1970), P. petersi (Lynch &amp; Duellman 1980), P. pseudoacuminatus (Duellman &amp; Lehr 2009), P. pulchridormientes (Chávez &amp; Catenazzi 2016), P. romeroae (Ron et al. 2020), P. royi (Morales 2007), P. subsigillatus (Lynch 1980b) and P. zorro (Rivera-Correa &amp; Daza 2020); and the presence of tarsal tubercles vs absence in P. amaguanae (Ron et al. 2020), P. degener (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. galdi (Duellman &amp; Lehr 2009), P. lacrimosus (Duellman &amp; Lehr 2009), P. mendax (Duellman 1978), P. mindo (Arteaga-Navarro et al. 2013), P. ornatissimus (Lynch 1970), P. pluvialis (Shepack et al. 2016), P. pseudoacuminatus (Duellman &amp; Lehr 2009), P. pulchridormientes (Chávez &amp; Catenazzi 2016), P. waoranii (McCracken et al. 2007) and P. zorro (Rivera-Correa &amp; Daza 2020) .</p><p>Bioacoustics</p><p>There is little information about the vocalization of the P. lacrimosus species group, though we gathered information for 15 of them. The advertisement call of Pristimantis flavus sp. nov. is composed of 1–4 notes and it is distinguished from all the following species with single note calls: P. aureolineatus (McCracken &amp; Forstner 2006), P. bromeliaceus, P. lacrimosus, P. latericius (Batallas-Revelo &amp; Brito-M 2014), P. loeslein (Castillo-Urbina et al. 2023), P. mindo (Arteaga-Navarro et al. 2013), P. petersi, P. petersioides (Carrión-Olmedo &amp; Ron 2021), P. pluvialis (Shepack et al. 2016), P. royi (Morales 2007), P. zimmermanae (Heyer &amp; Hardy 1991) and P. zorro (Rivera-Correa &amp; Daza 2020) . The advertisement call of Pristimantis flavus has less notes than that of P. galdi (7–9 notes; Batallas-Revelo &amp; Brito-M 2023), and has shorter notes (37–81 ms) compared to those of P. bromeliaceus (140–142 ms), P. lacrimosus (139–167 ms; Batallas-Revelo &amp; Brito-M 2014), P. loeslein (98–110 ms; Castillo-Urbina et al. 2023), P. mindo (approx. 300 ms; Arteaga-Navarro et al. 2013), P. petersi (310– 490 ms), P. petersioides (110–390 ms; Carrión-Olmedo &amp; Ron 2021) and longer notes than that of P. royi (24–26 ms; Morales 2007).</p><p>The advertisement call of Pristimantis flavus sp. nov. is distinguished by the higher dominant frequency (2.799 –3.187 Hz) from that of P. galdi (2.190 –2.580 Hz; Batallas-Revelo &amp; Brito-M 2023), P. pluvialis (2.312 –2.756 Hz; Shepack et al. 2016), P. subsigillatus (1.961 –2.033 Hz; Arteaga-Navarro et al. 2013) and by the lower dominant frequency from that of P. bromeliaceus (4.130 –4.470 Hz; Batallas-Revelo &amp; Brito-M 2014), P. eremitus (4.049 –5.168 Hz; Hutter et al. 2016), P. latericius (4.260 -4.470 Hz; Batallas-Revelo &amp; Brito-M 2014), P. petersi (3.820 –4.242 Hz), P. petersioides (4.122 –4.837 Hz; Carrión-Olmedo &amp; Ron 2021), P. royi (3.270 –3.360 Hz; Morales 2007) and P. zimmermanae (3.485 –4.222 Hz; Heyer &amp; Hardy 1991). The advertisement call of Pristimantis flavus has a lower call rate (38–46 calls/ min) than that of P. zimmermanae (62 calls/min; Heyer &amp; Hardy 1991) and a higher call rate than that of P. bromeliaceus (9–34 calls/min; Batallas-Revelo &amp; Brito-M 2014), P. lacrimosus (4–9 calls/ min), P. latericius (8–30 calls/min; Batallas-Revelo &amp; Brito-M 2014), P. petersi (4–9 calls/min) and P. petersioides (1–26 calls/min; Carrión-Olmedo &amp; Ron 2021).</p><p>The advertisement call parameters of Pristimantis flavus sp. nov. are indistinguishable from those of P. pulchridormientes, the number of notes (1–4 vs 2–5) and dominant frequency (2.799 –3.187 Hz vs 2.531 –3.094 Hz; Chávez &amp; Catenazzi 2016). However, information on other acoustic parameters would help to further differentiate these species based on their call. Unfortunately, no information is available regarding the minimum and maximum frequencies, call rate, note/call duration or inter-note/call intervals in P. pulchridormientes .</p><p>Distribution, natural history and conservation</p><p>The new species is only known from two localities in southern French Guiana and its ecology is mostly unknown. Males of Pristimantis flavus sp. nov. were captured on the Mitaraka massif (Fig. 6), calling at night from 3–5 m above the ground on leaves and bamboo in the outcrops located on the edge of the lowland forest, or on the plateau. On the “Pic Coudreau du Sud”, the males were observed calling in small groups of 5–10 individuals, from 2–6 m above the ground, in dense vegetation (e.g., vines, windfall, bamboo) and often positioned under a leaf. A male was observed, calling on a leaf, upside down; another was perched in a Clusia L. plant at the edge between a woodland and a rocky savannah area, while a group of males was calling in a nearby transition forest. The species is nocturnal and arboreal like all species of the lacrimosus group. Pristimantis flavus probably has a wider distribution in the interior of the Guiana Shield, at least in southern French Guiana as well as in the south-east part of Suriname and northern Pará State, in Brazil (see Fig. 12). We do not have sufficient data to categorize the new species following the criteria of the International Union for Conservation of Nature (IUCN), therefore we suggest it to be Data Deficient (DD).</p></div>	https://treatment.plazi.org/id/992457192C784F5136021486FCBBF82B	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.		Plazi	Mônico, Alexander Tamanini;Courtois, Elodie A.;Koch, Esteban Diego;Blanc, Michel;Dewynter, Maël;Kok, Philippe J. R.	Mônico, Alexander Tamanini, Courtois, Elodie A., Koch, Esteban Diego, Blanc, Michel, Dewynter, Maël, Kok, Philippe J. R. (2025): Two new Pristimantis (Anura: Strabomantidae) of the P. lacrimosus species group from the eastern Guiana Shield lowlands. European Journal of Taxonomy 1004: 259-293, DOI: 10.5852/ejt.2025.1004.2977, URL: https://europeanjournaloftaxonomy.eu/index.php/ejt/article/download/2977/13411
992457192C704F4A361311A5FE93FBB9.text	992457192C704F4A361311A5FE93FBB9.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Pristimantis fouqueti Mônico & Courtois & Koch & Dewynter & Kok 2025	<div><p>Pristimantis fouqueti sp. nov.</p><p>urn:lsid:zoobank.org:act: 09E34CA5- ACE 6-464D-9874-13C82410A7AB</p><p>Figs 7–10</p><p>Eleutherodactylus zimmermanae – Heyer &amp; Hardy 1991: 442.</p><p>Pristimantis sp. 3 – Lescure &amp; Marty 2000: 220–221. — Lescure et al. 2022: 7.</p><p>Pristimantis zimmermanae – Taucce et al. 2022: 103.</p><p>Pristimantis cf. zimmermanae – Fouquet et al. 2019a: 467; 2024: 480. — Vacher et al. 2020: table s1.</p><p>Diagnosis</p><p>The assignment of the new species to the Pristimantis lacrimosus species group is based on molecular phylogeny (Fig. 1) and the presence of hyperdistal subarticular tubercles (see Ron et al. 2020). Pristimantis fouqueti sp. nov. is characterized by the following combination of characters: (1) skin on dorsum shagreen with scattered tubercles, gular region smooth, belly areolate with enlarged tubercles; discoidal fold absent; dorsolateral folds absent; (2) tympanic membrane and tympanic annulus present, round, 27–34% of eye diameter; (3) snout moderate in length, acuminate in dorsal view, protruding in lateral view; loreal region concave; (4) three to five small upper eyelid tubercles; interorbital region flat, broader than upper eyelid; cranial crests absent; (5) dentigerous processes of vomers absent; (6) males with vocal slits, nuptial pads absent, vocal sac medium to large; (7) Finger I shorter than Finger II; discs of digits rounded, broader on Finger IV; (8) fingers lacking lateral fringes; thenar tubercle barely visible, palmar tubercle heart shaped, two times the size of thenar; hyperdistal subarticular tubercles present; (9) three ulnar tubercles, discrete and rounded; (10) heel shagreen lacking tubercles; four to five tarsal tubercles, elliptical, aligned; inner tarsal fold absent; (11) inner metatarsal tubercle ovoid and small, two times the size of round outer metatarsal tubercle; supernumerary plantar tubercles present, but poorly visible; (12) toes lacking lateral fringes; basal toe webbing absent; Toe V longer than Toe III; hyperdistal subarticular tubercles present; all discs expanded, truncate; (13) in life, dorsal surfaces of body and limbs yellowish to greenish brown, with a distinct but diffuse dark brown interorbital line posterior to a light brown triangle on snout; canthal stripe and supratympanic fold dark brown; two large dark brown scapular tubercles on each side of the dorsum, large reddish brown patch usually present on the middle of the back; flanks paler than dorsum and translucent; gular region yellow with brown melanophores; belly cream, translucent with whitish tubercles; iris light copper brown, with an ill-defined horizontal dark reddish intraocular streak; (14) SVL 18.9–19.8 mm (n = 4) in males, and 25.6 mm in female (n = 1); and (15) advertisement call consisting of a single note with a duration of 73–115 ms, silence between calls of 520–848 ms and a dominant frequency at 4.031 –4.307 Hz.</p><p>Etymology</p><p>The specific epithet ‘ fouqueti ’ is a noun in the genitive case, honoring our friend and colleague Antoine Fouquet for his invaluable contribution to the amphibian systematics in the Guiana Shield in general and in French Guiana in particular.</p><p>Type material</p><p>Holotype FRENCH GUIANA • adult ♂, SVL 18.9 mm; Régina municipality, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=-52.15167&amp;materialsCitation.latitude=4.5466666" title="Search Plazi for locations around (long -52.15167/lat 4.5466666)">Kaw Mountain</a>, <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=-52.15167&amp;materialsCitation.latitude=4.5466666" title="Search Plazi for locations around (long -52.15167/lat 4.5466666)">collected at Patawa camp</a>; 4°32′48″ N, 52°09′06″ W; 233 m a.s.l.; datum WGS-84; 14 Mar. 2012; A. Fouquet, E.A. Courtois and P. Gaucher leg.; MNHN-RA-2023.0003 (field no. PG705).</p><p>Paratypes BRAZIL – Amapá State • 1 adult ♂; Oiapoque municipality; 3°52′45″ N, 51°46′15″ W; 40 m a.s.l.; 13 Dec. 2012; A. Fouquet leg.; MZUSP 160343 (field no. MTR24136) .</p><p>FRENCH GUIANA – Régina municipality • 1 adult ♀; Nouragues (Inselberg Camp); 4°05′43″ N, 52°40′43″ W; 330 m a.s.l.; datum WGS-84; 10 May 2007; A. Fouquet leg.; MNHN-RA-2023.0002 (field no. AF264) • 1 adult ♂; same locality as for holotype; A. Fouquet, E.A. Courtois and P. Gaucher leg.; MNHN-RA-2023.0004 (field no. PG706) . – Mana municipality • 1 adult ♂; Trinité (near <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=-53.41417&amp;materialsCitation.latitude=4.6025" title="Search Plazi for locations around (long -53.41417/lat 4.6025)">Aya Camp</a>); 4°36′09″ N, 53°24′51″ W; 120 m a.s.l.; 1 May 2013; A. Fouquet and E.A. Courtois leg.; MNHNRA-2023.0005 (field no. AF1189)</p><p>Referred material</p><p>FRENCH GUIANA • 1 adult ♂; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=-53.208557&amp;materialsCitation.latitude=3.473639" title="Search Plazi for locations around (long -53.208557/lat 3.473639)">Camp Saut Richard</a>, Saül; 3°28′25.1″ N 53°12′30.8″ W; 5 Mar. 2019; Antoine Fouquet; (field no. AF AF5394) (this specimen was used only for molecular data) • 1 juv.; <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=-53.91278&amp;materialsCitation.latitude=3.5466666" title="Search Plazi for locations around (long -53.91278/lat 3.5466666)">Atachi Bakka</a>; 3°32′48″ N, 53°54′46″ W; 4 Feb. 2015; Benoit Villette and Jean-Pierre Vacher leg.; (field no. AF2607). (Specimen without repository number. Original specimen used to molecular analysis, only pictures remaining for reference) .</p><p>Description of the holotype (MNHN-RA-2023.0003, field no. PG705; Figs 7, 8A, 9A)</p><p>Adult male, 18.9 mm SVL; head wider than body, 25.9% of SVL; head wider than long; head width 36.0% of SVL; snout acuminate in dorsal view, protruding in lateral view; loreal region concave; eye large, 49.0% of head length, its diameter 1.14 times its distance from the nostril; nostrils protuberant, situated close to snout; canthus rostralis concave in dorsal view, slightly rounded in profile; loreal area concave; lips rounded; dorsal surface of head smooth and upper eyelids with minute tubercles; upper eyelid width smaller than interorbital distance; tympanic annulus present, rounded, tympanic membrane present but undifferentiated; postrictal ridges or tubercles absent; choanae round, small; dentigerous processes of vomers absent.</p><p>Skin on dorsum shagreen with scattered tubercles; two large scapular tubercles on each side of the dorsum; no dorsolateral folds; flanks smooth; gular region smooth; belly areolate with scattered tubercles; discoidal folds absent. Three ulnar tubercles, discrete and rounded; palmar tubercle heart-shaped, two times the size of a barely visible thenar tubercle; discrete supernumerary palmar tubercles present; subarticular tubercles prominent, ovoid in ventral view, rounded in lateral view; hyperdistal subarticular tubercles present; fingers lacking lateral fringes; fingers length when adpressed, 3&gt;4&gt;2&gt;1; discs of digits expanded, rounded, broader on Finger IV, pads with defined circumferential grooves. Tibia length 49.2% of SVL; foot length 41.3% of SVL; upper and posterior surfaces of hindlimbs shagreen; heel lacking tubercles; tarsus with four tubercles, elliptical, aligned; inner metatarsal tubercle ovoid, and small, two times the size of rounded outer metatarsal tubercle; supernumerary plantar tubercles present but poorly visible; subarticular tubercles rounded; hyperdistal subarticular tubercles present; toes lacking lateral fringes; basal toe webbing absent; discs of toes expanded, truncate; toes ventral pads poorly defined by circumferential grooves; toe lengths, when adpressed, 4&gt;5&gt; 3&gt; 2&gt;1. All morphometric measurements are provided in Table 2.</p><p>COLOR OF HOLOTYPE. In life, dorsal background color greenish brown; distinct but diffuse dark brown interorbital line posterior to a light brown triangle on snout; large reddish brown patch on the middle of the back; canthal stripe and supratympanic fold dark brown; scapular tubercles dark brown; posterior flanks greenish and translucent; gular region yellow with small brown melanophores; belly cream, translucent with whitish tubercles; ventral surfaces of forearms and hindlimbs pale yellow with brown melanophores; distinct dark brown spot on the ventral surface of right knee; iris light copper brown, with fine, dense, dark brown reticulation, an ill-defined dark reddish intraocular streak is continuous with the dark brown canthal stripe. After twelve years in preservative (ethanol 70%), the dorsal background color became brownish cream with a darker brown interorbital region, dark brown scapular tubercles, and dark brown canthal stripe and supratympanic fold; venter cream and translucent; ventral surface of limbs with small melanophores, denser under hands and feet; distinct dark brown spot under the right knee.</p><p>Intraspecific variation</p><p>The color of individuals changes depending on light or temperature conditions, varying from yellow during the night to brown during the day (Fig. 8). The color pattern varied between individuals, some had a very distinct reddish-brown spot on the back (Fig. 8A, C), but the dorsal coloration could be more uniform as in the holotype (Fig. 8A) or marked by brown spots bordering dorsal tubercles (Fig. 8B). The ventral color varies from cream yellow in individuals active at night to light brown during daytime (Fig. 9) the same can be observed in the condition of the white tubercles on the belly, which are more apparent when individuals are active. Although the general dorsal tubercles pattern remains the same, the observed individuals displayed remarkable changes in the size of the tubercles during handling, going from conspicuous tubercles to flat tubercles (Fig. 8). The female (AF 0264) coloration was recorded only during the day, being dark uniform brown on the dorsum and light brown on the venter. A juvenile (AF 2607) had a strikingly different coloration than the adults, the dorsum and limbs were greenish yellow, with patches of light to dark brown, the interorbital line and the dark brown scapular tubercles separated by a paler area were present, hands and feet were cream with brown markings and the venter was whitish translucent, with the characteristic white tubercles of the species.</p><p>Advertisement call</p><p>Males of Pristimantis fouqueti sp. nov. produce long series of short, high-pitched, whistled calls (Fig. 10). The advertisement call (n = 3 males) is composed of a single tonal note (n = 60 calls) with a duration of 90±10 ms (73–115 ms) and silence between calls of 669±90 ms (520–848 ms). Calls are emitted with a minimum frequency of 3.870±93 Hz (3.770 –3.991 Hz), a maximum frequency of 4.293±77 Hz (4.198 – 4.417 Hz) and a dominant frequency of 4.138±91 Hz (4.031 –4.307 Hz). Males have been observed calling both in choruses and individually, at a rate of 78 ±6 (72–84) calls per minute, and call intensity increasing on rainy nights. Temporal and spectral traits are summarized for to each analyzed individual in Table 4.</p><p>Differential diagnosis</p><p>Morphology</p><p>Pristimantis fouqueti sp. nov. is distinguished by a smaller SVL (18.9–19.8 mm) in males from those of the following close relatives: P. acuminatus (20.91–24.01 mm; Ortega-Andrade et al. 2015), P. aureolineatus (19.7–28.8 mm; Guayasamin et al. 2007), P. calima (24.0 mm; Ospina-Sarria &amp; Duellman 2019), P. degener (22.2 mm; Lynch &amp; Duellman 1997), P. ecuadorensis (25.4 mm; Guayasamin et al. 2017), P. jorgevelosai (24.3–29.8 mm; Lynch 1994), P. kalamandeenae (22.1 mm; Means et al. 2023), P. latericius (22.2–25.1 mm; Duellman &amp; Lehr 2009), P. loeslein (20.5–23.3 mm; Castillo-Urbina et al. 2023), P. mendax (19.4–21.7 mm; Duellman 1978), P. mindo (2.49–27.4 mm; Arteaga-Navarro et al. 2013), P. nankints (19.6 mm; Ron et al. 2020), P. nyctophylax (21.9–31.4 mm; Lynch 1976), P. ornatissimus (19.5–25.0 mm; Lynch 1970), P. padiali (26.5 mm; Moravec et al. 2010), P. pardalinus (21.1–26.7 mm; Lehr et al. 2006), P. pluvialis (21.8–26.9 mm; Shepack et al. 2016), P. pulchridormientes (19.1–21.9 mm; Chávez &amp; Catenazzi 2016), P. rhodostichus (19.3 mm; Duellman &amp; Pramuk, 1999), P. romeroae (23.8 mm; Ron et al. 2020), P. royi (20.1 mm; Morales 2007), P. schultei (23.5–26.6 mm; Duellman 1990), P. subsigillatus (19.3–28.5 mm; Lynch 1980b), P. tantanti (19.6–21.9 mm; Lehr et al. 2007), P. waoranii (19.7–21.2 mm; McCracken et al. 2009), P. zimmermanae (19.1–21.2 mm; Heyer &amp; Hardy, 1991) and P. zorro (19.5–21.5 mm; Rivera-Correa &amp; Daza 2020); and a larger SVL in males than those of P. amaguanae (16.3 mm; Ron et al. 2020) and P. pseudoacuminatus (12.7–17.6 mm; Duellman &amp; Lehr 2009).</p>individualCDSBCLFHFDFHolotype MNHN-RA-2023.0003 (n = 20 calls)mean SD min86 2 84635 57 5443.785 11 3.7714.209 9 4.1974.059 26 4.041max887273.7994.2214.115mean947183.9664.3714.226Paratype MNHN-RA-2023.0005 (n = 18 calls)SD min max12 74 11496 527 84818 3.931 3.99127 4.320 4.41722 4.221 4.307mean876373.7834.2354.060ParatypeSD975101551(n = 22 calls)max9676838064.2584.214MZUSP 160343 min 73 520 3770 4.210 4.031<p>The new species is distinguished by the presence of a tympanic annulus vs absent in P. acuminatus (Ortega-Andrade et al. 2015), P. limoncochensis (Ortega-Andrade et al. 2015), P. moro (Savage 2002) and P. tantanti (Lehr et al. 2007); by the presence of vocal slits in males vs absent in P. amaguanae (Ron et al. 2020), P. enigmaticus (Ortega-Andrade et al. 2015), P. kalamandeenae (Means et al. 2023), P. limoncochensis (Ortega-Andrade et al. 2015), P. omeviridis (Ortega-Andrade et al. 2015), P. padiali (Moravec et al. 2010) and P. tantanti (Lehr et al. 2007); by the absence of nuptial pads vs presence in P. acuminatus (Ortega-Andrade et al. 2015), P. aureolineatus (Guayasamin et al. 2006), P. calima (Ospina-Sarria &amp; Duellman 2019), P. crucifer (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. eremitus (Lynch 1980a), P. galdi (Duellman &amp; Lehr 2009), P. jorgevelosai (Lynch 1994), P. lacrimosus (Duellman &amp; Lehr 2009), P. latericius (Duellman &amp; Lehr 2009), P. loeslein (Castillo-Urbina et al. 2013), P. pardalinus (Lehr et al. 2006), P. romeroae (Ron et al. 2020) and P. waoranii (McCracken et al. 2007); by the absence of discoidal folds vs presence in P. acuminatus (Ortega-Andrade et al. 2015), P. aureolineatus (Guayasamin et al. 2006), P. calima (Ospina-Sarria &amp; Duellman 2019), P. crucifer (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. galdi (Duellman &amp; Lehr 2009), P. latericius (Duellman &amp; Lehr 2009), P. limoncochensis (Ortega-Andrade et al. 2015), P. loeslein (Castillo-Urbina et al. 2023), P. nyctophylax (Lynch 1976), P. olivaceus (Köhler et al. 1998), P. omeviridis (Ortega-Andrade et al. 2015), P. ornatissimus (Lynch 1970), P. padiali (Moravec et al. 2010), P. petersi (Lynch &amp; Duellman 1980), P. petersioides (Carrión-Olmedo &amp; Ron 2021), P. pseudoacuminatus (Duellman &amp; Lehr 2009), P. rhodostichus (Duellman &amp; Pramuk 1999), P. royi (Morales 2007) and P. waoranii (McCracken et al. 2009); and by the absence of dentigerous processes of vomers vs presence in P. acuminatus (Ortega-Andrade et al. 2015), P. aureolineatus (Guayasamin et al. 2006), P. calima (Ospina-Sarria &amp; Duellman 2019), P. bromeliaceus (Lynch 1979), P. crucifer (Lynch &amp; Duellman 1997), P. degener (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. enigmaticus (Ortega-Andrade et al. 2015), P. eremitus (Lynch 1980a), P. flavus sp. nov. (this study), P. galdi (Duellman &amp; Lehr 2009), P. jorgevelosai (Lynch 1994), P. kalamandeenae (Means et al. 2023), P. lacrimosus (Duellman &amp; Lehr 2009), P. latericius (Duellman &amp; Lehr 2009), P. limoncochensis (Ortega-Andrade et al. 2015), P. loeslein (Castillo-Urbina et al. 2013), P. mindo (Arteaga-Navarro et al. 2013), P. moro (Savage 2002), P. nankints (Ron et al. 2020), P. nyctophylax (Lynch 1976), P. omeviridis (Ortega-Andrade et al. 2015), P. ornatissimus (Lynch 1970), P. padiali (Moravec et al. 2010), P. pardalinus (Lehr et al. 2006), P. petersi (Lynch &amp; Duellman 1980), P. petersioides (Carrión-Olmedo &amp; Ron 2021), P. pluvialis (Shepack et al. 2016), P. pseudoacuminatus (Duellman &amp; Lehr 2009), P. rhodostichus (Duellman &amp; Pramuk 1999), P. romeroae (Ron et al. 2020), P. royi (Morales 2007), P. schultei (Duellman 1990), P. subsigillatus (Lynch 1980b), P. tantanti (Lehr et al. 2007), P. waoranii (McCracken et al. 2009) and P. zorro (Rivera-Correa &amp; Daza 2020) .</p><p>Pristimantis fouqueti sp. nov. is further distinguished by its unique combination of body tubercles, i.e., the presence of upper eyelid tubercles vs absence in P. acuminatus (Ortega-Andrade et al. 2015), P. aureolineatus (Guayasamin et al. 2007), P. degener (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. enigmaticus (Ortega-Andrade et al. 2015), P. kalamandeenae (Means et al. 2023), P. lacrimosus (Duellman &amp; Lehr 2009), P. limoncochensis (Ortega-Andrade et al. 2015), P. moro (Savage 2002), P. nankints (Ron et al. 2020), P. omeviridis (Ortega-Andrade et al. 2015), P. ornatissimus (Lynch 1970), P. padiali (Moravec et al. 2010), P. pulchridormientes (Chávez &amp; Catenazzi 2016), P. schultei (Duellman 1990), P. subsigillatus (Lynch 1980b), P. tantanti (Lehr et al. 2007), P. waoranii (McCracken et al. 2009) and P. zorro (Rivera-Correa &amp; Daza 2020); the presence of ulnar tubercles vs absence in from P. bromeliaceus (Lynch 1979), P. ecuadorensis (Guayasamin et al. 2017), P. lacrimosus (Duellman &amp; Lehr 2009), P. ornatissimus (Lynch 1970), P. petersi (Lynch &amp; Duellman 1980), P. pseudoacuminatus (Duellman &amp; Lehr 2009), P. pulchridormientes (Chávez &amp; Catenazzi 2016), P. romeroae (Ron et al. 2020), P. royi (Morales 2007), P. subsigillatus (Lynch 1980b) and P. zorro (Rivera-Correa &amp; Daza 2020); and the presence of tarsal tubercles vs absence in P. amaguanae (Ron et al. 2020), P. degener (Lynch &amp; Duellman 1997), P. ecuadorensis (Guayasamin et al. 2017), P. galdi (Duellman &amp; Lehr 2009), P. lacrimosus (Duellman &amp; Lehr 2009), P. mendax (Duellman 1978), P. mindo (Arteaga-Navarro et al. 2013), P. ornatissimus (Lynch 1970), P. pluvialis (Shepack et al. 2016), P. pseudoacuminatus (Duellman &amp; Lehr 2009), P. pulchridormientes (Chávez &amp; Catenazzi 2016), P. waoranii (McCracken et al. 2007) and P. zorro (Rivera-Correa &amp; Daza 2020) .</p><p>Bioacoustics</p><p>The advertisement call of Pristimantis fouqueti sp. nov. is composed of a single note and thus differs from that of all species with multiple-note calls such as P. eremitus (2–9 notes; Hutter et al. 2016), P. flavus sp. nov. (1–4 notes; this study), P. galdi (7–9 notes; Batallas-Revelo &amp; Brito-M 2023) and P. pulchridormientes (2–5 notes; Chávez &amp; Catenazzi 2016). The advertisement call of Pristimantis fouqueti is shorter (73–115 ms) compared to those of P. bromeliaceus (140–142 ms), P. lacrimosus (139–167 ms; Batallas-Revelo &amp; Brito-M 2014), P. mindo (approx. 300 ms; Arteaga-Navarro et al. 2013), P. petersi (310–490 ms), P. petersioides (110–390 ms; Carrión-Olmedo &amp; Ron 2021), and longer compared to those of P. aureolineatus (15–42 ms; McCracken &amp; Forstner 2006), P. pluvialis (23–58 ms; Shepack et al. 2016), P. royi (24–26 ms; Morales 2007) and P. zimmermanae (approx. 50 ms; Heyer &amp; Hardy 1991).</p><p>The advertisement call of Pristimantis fouqueti sp. nov. is also distinguished by a higher dominant frequency (4.031 –4.307 Hz) from P. flavus sp. nov. (2.799 –3.187 Hz; this study), P. galdi (2.190 – 2.580 Hz; Batallas-Revelo &amp; Brito-M 2023), P. lacrimosus (3.050 –3.100 Hz; Batallas-Revelo &amp; Brito-M 2014), P. loeslein (2.744 –3.021 Hz; Castillo-Urbina et al. 2023), P. mindo (2.698 –2.919 Hz; Arteaga-Navarro et al. 2013), P. pluvialis (2.312 –2.756 Hz; Shepack et al. 2016), P. pulchridormientes (2.531 – 3.094 Hz; Chávez &amp; Catenazzi 2016), P. royi (3.270 –3.360 Hz; Morales 2007), P. subsigillatus (1.961 – 2.033 Hz; Arteaga-Navarro et al. 2013) and P. zorro (2.842 –3.186 Hz; Rivera-Correa &amp; Daza 2020); and by a higher call rate (72–84 calls/minutes) from P. aureolineatus (17–40 calls/min; McCracken &amp; Forstner 2006), P. bromeliaceus (9–34 calls/min; Batallas-Revelo &amp; Brito-M 2014), P. flavus (38– 46 calls/min; this study), P. lacrimosus (4–9 calls/min), P. latericius (8–30 calls/min; Batallas-Revelo &amp; Brito-M 2014), P. petersi (4–9 calls/min), P. petersioides (1–26 calls/min; Carrión-Olmedo &amp; Ron 2021) and P. zimmermanae (62 calls/min; Heyer &amp; Hardy 1991).</p><p>Distribution, natural history and conservation</p><p>Very little information is available on this species, as it has been rarely observed due to its arboreal habits. However, it has been detected in many localities in French Guiana thanks to its characteristic call (Dewynter et al. 2021). It is a nocturnal species calling in trees and palm trees at heights exceeding 2 m. Pristimantis fouqueti sp. nov. seems to prefer forest edges such as ‘chablis’ (openings made by fallen trees) or the edges of inselbergs (‘savane-roche’; Fig. 11). Some individuals, including the female, were found during the day in bromeliads located 1–2 m above the ground, suggesting that this species could use bromeliads at least as daytime refuges and possibly as breeding sites. This species appears to be distributed throughout French Guiana and is also present in the state of Amapá in Brazil (Fig. 12). Its occurrence in Suriname is likely, but remains unconfirmed.</p><p>The species inhabits primary and secondary forests, as well as forest edges. Despite the difficulty in collecting individuals, its populations are locally abundant. Therefore, we suggest the species to be listed as “Least Concern” according to the criteria of the International Union for Conservation of Nature (IUCN).</p></div>	https://treatment.plazi.org/id/992457192C704F4A361311A5FE93FBB9	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.		Plazi	Mônico, Alexander Tamanini;Courtois, Elodie A.;Koch, Esteban Diego;Blanc, Michel;Dewynter, Maël;Kok, Philippe J. R.	Mônico, Alexander Tamanini, Courtois, Elodie A., Koch, Esteban Diego, Blanc, Michel, Dewynter, Maël, Kok, Philippe J. R. (2025): Two new Pristimantis (Anura: Strabomantidae) of the P. lacrimosus species group from the eastern Guiana Shield lowlands. European Journal of Taxonomy 1004: 259-293, DOI: 10.5852/ejt.2025.1004.2977, URL: https://europeanjournaloftaxonomy.eu/index.php/ejt/article/download/2977/13411
