A new snouted treefrog (Anura, Hylidae, Scinax) from fluvial islands of the Juruena River, southern Brazilian Amazonia

Southern Amazonia is one of the less-explored regions by anuran taxonomists. We describe a small new species of snouted treefrog, genus Scinax, from this region, from a fluvial archipelago in the Juruena River, state of Mato Grosso, Brazil. The description is based on external morphology of adults and tadpoles, advertisement call and molecular data. The species is phylogenetically related to other snouted treefrogs of the Scinax cruentomma species group and shows the most southeastern distribution in Amazonia among its close relatives. It is distinguished from congeners mainly by its larger adult body size and bilobate vocal sac that reaches the level of the pectoral fold, a reddish-brown horizontal stripe on the iris, dark melanophores or blotches on the vocal sac and the throat of females, and the uniformly brown posterior portion of the thigh. The advertisement call comprises one pulsed note emitted at regular intervals, with a duration of 189–227 ms, 30–35 pulses/note and a dominant frequency of 2,250–2,344 Hz. The type locality is suffering several environmental impacts, including illegal mining, overfishing, unsustainable agriculture, uncontrolled logging and degradation associated with the construction of new hydroelectric dams. Further study of the biology and regional distribution of the new species is required to propose mitigation measures needed for its conservation.

The rate of formal description of new species of Scinax is highly variable over the last 20 + years and among Amazonian regions.While six new species were described between 1990 and 1993 [15][16][17][18][19][20], only two new species were named between 1994 and 2009 [21,22].The use of integrative taxonomy in species discovery, associated with fieldwork in remote and poorly sampled areas, facilitated the description of six new Amazonian Scinax between 2014 and 2018, including four from central and southwestern Amazonia [6][7][8][23][24][25].Yet, poorly sampled areas in Amazonia likely harbor additional candidate species awaiting formal description [7,12,14].
Among the poorly sampled areas in southern Amazonia, northwestern Mato Grosso (Brazil) is least explored by anuran taxonomists: only six new species of frogs were described from here in the last two decades [26][27][28][29][30]. Alarmingly, this part of Amazonia is strongly threatened by an "arc of deforestation" resulting from selective and clear-cut logging, expansion of livestock grazing and agriculture [31].To make this scenario even worse, 36 dams are slated to be constructed in the Juruena and Teles Pires Basin, northwestern Mato Grosso [32]; four are already built or under construction, and feasibility studies are underway for an additional 13 [33].Among those being planned, three mega-dams (1,200-3,509 megawatts) will be constructed in the Juruena River alone [32].Organisms associated with the riverine environment or fluvial islands, such as the new species described in this study, will likely be affected by disruption of the natural flood pulse caused by these dams.
While sampling anurans from islands of the Juruena River, northwestern Mato Grosso, between 2019 and 2020, we found a small snouted treefrog of the Scinax cruentomma group whose morphology and advertisement call do not resemble those of any described species.Integration of molecular, morphological and bioacoustic data led us to identify it is a new species, which we describe here.Additionally, we highlight the need for conservation of the new species in the face of imminent anthropization of its habitat by human infrastructure development.

Study area and sampling
This study was conducted on islands in the Juruena River near São Nicolau Farm (9º48'S, 58º15'W), municipality of Cotriguac ¸u, northwest Mato Grosso, Brazil (Fig 1).The climate in the region is tropical with an average temperature of 24˚C, relative humidity of ~80% and average annual rainfall of 2,034 mm.The dry season runs from April to September, the wet season from October to March [34,35].The Juruena is one of the main rivers in southern Amazonia; it joins the Teles Pires River to form the Tapajo ´s River, a large tributary of the Amazon River [34].The river's flood elevation in the study area varies between 4 and 10 m [36] and small islands can be totally flooded, depending on their topography.
Twenty-one islands were sampled through acoustical and visual surveys (Table 1), but the new species was recorded on only four islands (Fig 1).Twelve adult specimens were collected from two islands between February 2019 and February 2020.Tadpoles were collected in February 2020 from a temporary pond where an explosive breeding event had been observed the    previous month.Adults were anesthetized and killed with a topical solution of 10% benzocaine, fixed in 10% neutral-buffered formalin and preserved in 70% ethanol.Tissue samples were obtained and stored in 96% ethanol.Tadpoles were anesthetized and killed by immersion in 10% benzocaine and fixed and preserved in 5% neutral-buffered formalin.Adults, tadpoles and tissue samples are housed in the Herpetological section of the Biological Collection of Meridional Amazonia (ABAM) at the Universidade Federal de Mato Grosso, Sinop, Mato Grosso, Brazil.Protocols of collection and animal care follow the Brazilian Federal Council for Biology resolution number 148/2012.The collection permit (Process number 30034-1) was issued by the Instituto Chico Mendes de Conservac ¸ão da Biodiversidade-ICMBio (Ministry of Environment, Government of Brazil).The distribution map was made using the 2022 landcover data from MapBiomas Amazonia project, which is a multi-institutional initiative to generate annual land cover and land use maps from automatic classification processes applied to satellite imagery [37,38].MapBiomas data is public, open and free under a Creative Commons CC-BY-SA; the complete description of the project can be found at http://amazonia.mapbiomas.org.
The vocalization of one unvouchered male was recorded on 12 February 2019 using a CANON EOS REBEL T3 digital video camera with built-in microphone.The original MOV file was converted to WAV format with a sampling rate of 44,100 Hz and 16 bits.The video camera was sited approximately 50 cm from the recorded male.Air temperature at the time of recording is unknown.MOV and WAV files are housed in the public repository Fonoteca Neotropical Jacques Vielliard [39], University of Campinas (Campinas, Brazil).

Phylogenetics and species delimitation
Genomic DNA was extracted from tissues of two specimens of the new species using a commercial kit (Wizard, Promega Corp., Madison, WI) following the manufacturer's protocol.A fragment of the 16S rRNA mitochondrial gene was amplified through the polymerase chain reaction (PCR) using 16Sar (CGCCTGTTTATCAAAAACAT) and 16Sbr (GCCGTCTGAACTCAGATCGCAT) primers [40].The PCR protocol follows [12]; PCR products were purified using ExoSAP-IT (USB Corporation, Ohio, USA).The Big Dye Terminator Cycle Sequencing Kit was used according to the manufacturer's recommendations to sequence reactions in an automated sequencer ABI 3130xl (Applied Biosystems, Waltham, USA).Both forward and reverse primers were used in the sequencing reactions.Sequences were visually checked and edited using Geneious Prime 2023.0.2 [41].Edited sequences ranged in length from 585 to 588 base pairs (bp).
The concatenated alignment was split into 28 initial partitions, one for 12S-tRNA Val -16S, another one for 16S-tRNALeu, and one for each codon of protein-coding genes.Best-fit partitioning schemes and nucleotide models were inferred through MODELFINDER [44] implemented in IQ-TREE [45].Phylogenetic relationships of the new species were reconstructed through Maximum Likelihood in IQ-TREE.Node support was calculated using 10,000 ultrafast bootstrap approximation replicates [46] with a maximum 10,000 iterations (unsuccessful iterations to stop > 100), and a 0.99 minimum correlation coefficient.The uncorrected pairwise p-distance and Kimura-2-parameter distance [47] between the new species and each of its close relatives were calculated in MEGA 11 [48] using the default parameters and the option pairwise deletion.

Bioacustics
Advertisement calls were analyzed using Raven 1.6 [61] with the following configuration: Blackman window, 3 dB; filter bandwidth, 80 Hz; overlap, 80%; hop size, 4.1 ms; and DFT size, 2,048 samples.Each call was described using the call-centered approach [62].The following spectral and temporal parameters were measured from oscillograms and spectrograms: call duration (CD), call period (CP), call repetition rate (CR), inter-call interval (ICI), pulse duration (PD), number of pulses per call (PN), inter-pulse interval (IPI), pulse period (PP), pulse repetition rate (PRR) and dominant frequency (DF).Call repetition rate and pulse repetition rate were calculated as 1 min and 1 sec divided by the call and pulse period, respectively; dominant frequency was obtained using the peak frequency function.Call terminology follows [62].Visual representation of the advertisement call was generated in the R environment [63] using the Seewave 2.0.5 [64] set up as follows: Hanning window, overlap of 85% and 256 points of resolution (FFT).

Nomenclatural acts
The electronic edition of this article conforms to the requirements of the amended International Code of Zoological Nomenclature.Hence, the new names contained herein are available under that Code from the electronic edition of this article.This published work and the nomenclatural acts it contains have been registered in ZooBank, the online registration system for the ICZN.The ZooBank LSIDs (Life Science Identifiers) can be resolved and the associated information viewed through any standard web browser by appending the LSID to the prefix "http://zoobank.org/".The LSID for this publication is: urn:lsid:zoobank.org:pub:B502ECB7-99B7-4998-8F80-2FAA9260BD0D.The electronic edition of this work was published in a journal with an ISSN; it has been archived and is available from the following digital repository: LOCKSS.
Interspecific pairwise genetic distances between the new species and each of its close relatives of the S. cruentomma group all exceed 3% (Table 2).Scinax sp.19 (sensu Araujo-Vieira et al. [5]) presents the lowest distances to the new species (K2P and p-distance = 3.0%), while S. staufferi shows the highest (K2P = 11.5%;p-distance = 10.1%).Within the major clade that includes the new species, the lowest distances are between S. albertinae and S. sp. 19, while the highest ones are between S. juruena sp.nov.and S. sp.22 (K2P = 9.6%; p-distance = 14.7%).

Etymology
The specific epithet juruena refers to the Juruena River, where the pristine type locality of the new species is located.Generic placement.The new species is assigned to the snouted treefrog genus Scinax based on the phylogenetic position inferred from mitochondrial and nuclear genes (Fig 2).

Diagnosis
Scinax juruena sp.nov. is distinguished from congeners by the following combination of characters.SVL 24.1-27.6mm (n = 14) in adult males; snout truncate in dorsal view; vocal sac bilobate and reaching the level of pectoral fold; dorsum covered by dark brown spots and irregularly distributed blotches, but lacking dorsal or dorsolateral dark stripes; absence of longitudinal stripe on thigh; reddish brown horizontal stripe on iris; vocal sac covered by dark melanophores or blotches; green bones.Tadpoles have LKRF 2(2)/3; upper lip unemarginated laterally; MPRF (1)/3/1; P-3 smaller than P-2 and P-1; and a dark brown horizontal bar on iris.Advertisement call is composed of one pulsed note with a call duration of 189-227 ms; a call rate of 68-89 calls/min; 30-35 pulses/note; and a dominant frequency of 2,250-2,344 Hz.

Description of the holotype
Adult male 26.0 mm SVL (Fig 3).Body slightly slender; head slightly wider than body.Head as wide as long (HL/HW = 1.0),HL and HW each 32% of SVL.Snout truncate in dorsal view, rounded in lateral view; nostrils protuberant and elliptical, directed dorsolaterally; internarial region depressed; internarial distance 80.7% of interorbital distance.Canthus rostralis evident, slightly convex in dorsal view and rounded in lateral view; loreal region concave.Eyes protuberant; eye diameter 125% of IOD and 143% of IND.Interorbital region flattened, 29% of HW and 133% of UEW.Supratympanic fold barely evident, extends from posterior corner of eye to posterior portion of tympanum.Tympanum small and rounded; diameter 46% of ED; tympanum-eye distance approximately equal to TD; tympanic annulus evident and rounded, upper portion hidden by supratympanic fold.Vocal slits present, extend from anterolateral base of tongue to commissure of the jaw; tongue long and lanceolate.Dentigerous processes of vomers present, triangular and separated from each other by half of their length; four teeth on the right side, three on the left.Choanae oval.Vocal sac distinct, bilobate and subgular; when deflated, extends laterally to the area above the forearm insertion.
Upper arm as slender as forearm.Axillary membrane absent.Ulnar tubercles absent.Hand length 26.1% of SVL; fingers slender and long, poorly fringed; relative length of fingers I < II < IV < III.Finger discs large and elliptical, third finger disc diameter 36.6% of ED and 78.6% of TD; finger disc on finger I smaller than on fingers II-IV; finger webbing vestigial.Palmar tubercle bifid and flattened; thenar tubercle flattened and elliptical; distal subarticular tubercle conical on fingers I and II, rounded on fingers III and IV; supernumerary tubercles present and subconical on fingers I and II, indistinct on the others.Nuptial pad light-colored, longer than wide, extends from anterolateral area of distal subarticular tubercle on finger I to posterolateral region of thenar tubercle.
In preservative, skin smooth on head, upper eyelid, dorsum and dorsal surfaces of limbs.Flanks finely granulate.Small and rounded tubercles on posterior portion of tympanum.Skin smooth on vocal sac, ventral surfaces of upper arm and forearm, throat, chest and ventral surfaces of tibia and tarsus.Skin areolate on belly and ventral surface of thighs.Small and rounded tubercles in perianal region.In life, skin texture is similar to that in preservative, except for the presence of small and irregularly distributed tubercles on dorsum and flanks in life.
In preservative (Fig 3), anterior portion of head light grey and posterior portion light brown; dorsum and upper eyelid light grey; brown canthal stripe extends from the nostril to the anterosuperior portion of tympanum; upper lip light cream; dorsal surfaces of hand, forearm, upper arm, foot, tarsus and tibia light cream; anterior surface of thigh dark brown close to the groin and light cream close to the knee, superior surface light cream, posterior surface brown.Small dark brown spots and irregularly distributed blotches on head, dorsum, flanks, arm, anterior and superior portion of thigh, foot and tarsus.Dark vertebral and lateral lines on dorsum absent.White tubercles on posterior portion of tympanum.Three inconspicuous light brown stripes on tibia, two on forearm and one on the proximal portion of hand.Anal flap dark brown; perianal tubercles white.Vocal sac light cream with several small dark and irregularly distributed melanophores; chest, belly and ventral surfaces of limbs cream.Small dark and irregularly distributed melanophores on ventral surfaces of hands, feet and hind limbs.Color in life of the holotype is unknown.

Coloration in life of paratypes
Scinax juruena sp.nov.changes external coloration between night and day.At night (Fig 4A -4D), dorsal surfaces of the head and body are brownish yellow with tiny light brown dots and irregularly distributed spots; the canthal stripe is brown; upper lips are whitish grey with small grey dots; an inconspicuous light brown stripe extends from the posterior corner of the eyes to the posterior portion of the tympanum; and white tubercles cover the posterior portion of the tympanum and the lateroposterior portion of vocal sac (Fig 4C).The iris is silvery brown with a reddish brown horizontal stripe medially.Upper flanks are yellow and lower flanks pale yellow; both are covered with whitish grey spots and blotches.Dorsal surfaces of upper and lower arms are yellow and pale yellow, respectively, and covered by grey bands.The dorsal surface of the thigh is pale yellow with light grey bands; anterior and posterior surfaces are translucent.Dorsal surfaces of the tibia, tarsus and foot are tan with light gray dots and bars.Ventral surfaces of fore-and hind limbs are whitish grey.The chest and belly are pinkish white to white.In males, each lobe of the bilobate vocal sac is yellow with dark melanophores; the contact zone between them is whitish yellow (Fig 4A and 4B).In females, the throat is translucent with dark melanophores.
During the day (Fig 4E and 4F), dorsal surfaces of the head, body, upper flanks and foreand hind limbs become greyish brown; dots, spots, blotches and bars on dorsal surfaces became darker and larger; ventral surfaces of the tarsus and foot became dark grey; and upper lips become brownish white.Lower flanks are yellowish cream and the groin is yellow; both are covered by dark brown spots and blotches.The thigh is brown both anteriorly and posteriorly; ventral surfaces of the thigh and tibia are brownish grey.The chest is translucent, the belly brownish white.In males, the vocal sac is brownish yellow with dark melanophores and small brown blotches.

Variation
External morphology of paratypes and paratopotypes of Scinax juruena sp.nov.largely agrees with that of the holotype; see Table 3 for measurements.The SVL of the only female falls within the range of males.Differences relate mainly to color pattern in preservative (Fig 5).Small light blotches are present in 55% of the paratypes.Whereas all paratypes have dark brown spots of varying size on the flanks, 82% of them also have elongate dark brown blotches.Brown bars on the tibia are conspicuous in 55% of the paratypes but inconspicuous in the others.Brown bars on the thigh, which may be conspicuous or inconspicuous, are present in 91% of the type series; 2-4 bars are present on each thigh.The posterior surface of the thigh is brown in 91% of the paratypes and light brown in one individual.The lateral surface of the belly is immaculate in one paratype but covered by small to medium-sized dark spots and blotches in all others (Fig 5).While the vocal sacs of all males have dark melanophores, only 20% of them show the same pattern as the holotype.An additional 20% have more pigmentation, and the remaining 60% have dark brown blotches in addition to dark melanophores.The throat of the lone female has dark melanophores arrayed as in the holotype.
Oral disc located and directed anteroventrally (Figs 7A and 8), protuberant when closed.Upper lip not emarginated laterally; lower lip emarginated laterally (Fig 8).Papillae rounded and long; marginal papillae in a uniseriate row on the upper lip, with a moderate gap anteriorly, and on the central portion of the lower lip; marginal papillae in a triseriate row on the fold; marginal papillae row formula (1)/3/1.Submarginal papillae absent.Jaw sheaths serrated with conical cusps; upper jaw sheath M-shaped; lower jaw sheath V-shaped; upper jaw sheath more massive than lower jaw sheath.Labial keratodont row formula 2(2)/3; A-1 and A-2 nearly the same length, narrow gap in A-2; P-1 and P-2 approximately the same length, P-3 smaller than P-2 and P-1.
In preservative (Fig 7), dorsum translucent grey; nostrils surrounded by dark grey pigmentation; dark grey diamond-shaped mark on interorbital region; dark grey canthal stripe from snout to anterior eye corner; dark grey stripe from posterior eye corner to body-tail insertion; dark grey blotch with frayed edges on infraocular region formed by very small dots.Ventral surface of body translucent grey, immaculate.Tail muscle brown with unpigmented blotches and black dots distributed irregularly; unpigmented, thin lateral line from body-tail insertion to tail.Fins translucent grey; light to dark grey, vertical vermiculation on both fins.Coloration in life ( Fig 9) resembles that in preservative, except for an iris bronze with a dark brown horizontal bar and light orange blotches on dorsal fins; dorsum and tail muscle light brown.

Comparisons with other species
Characters of compared species are presented inside parentheses unless indicated otherwise.One diagnostic character is presented for most compared species, except those whose morphology and advertisement calls are similar to the new species [7].S1 Appendix contains data for additional specimens examined.Scinax juruena sp.nov.differs from members of the S. auratus, S. boesemani, S. danae, S. funereus, S. fuscovarius, S. granulatus, S. nasicus and S. rostratus groups and S. pachycrus by the presence in adults of a bilobate vocal sac that reaches the level of the pectoral fold (vocal sac not reaching the level of the pectoral fold in all mentioned taxa: [5]); from members of the S. squalirostris group by its truncated snout in dorsal view (elongate acuminated in S. squalirostris group); and from members of the S. fuscomarginatus group by the absence of dorsolateral dark stripes (present in all species of the S. fuscomarginatus group; [23]).
Scinax juruena sp.nov. is distinguished from S. manriquei in having a bilobate vocal sac and the absence of a dorsolateral stripe (single vocal sac and light-colored dorsolateral stripe present: [70]).
Scinax juruena sp.nov.differs from S. karenanneae and S. lindsayi by having a vocal sac covered with dark melanophores or blotches and a silver iris with a horizontal reddish-brown stripe (vocal sac without dark melanophores or blotches and no horizontal bar on the iris in both species; [17,18]).Additionally, S. juruena sp.nov.has an advertisement call with duration 189-227 ms (call duration 80-100 ms in S. lindsayi; [17]).
Scinax juruena sp.nov. is distinguished from S. staufferi by having a dorsum covered with dark brown spots and small irregularly distributed blotches, calls with a pulse repetition rate of 143-167 pulses/s, and tadpoles have LKRF 2(2)/3 (irregular or continuous longitudinal marks, a pulse repetition rate of 100-130 pulses/s, and tadpoles have LKRF 2(2)/3(1); [49]).Scinax juruena sp.nov.differs from S. strussmannae by having a larger body size, a vocal sac covered with dark melanophores or blotches, a reddish brown horizontal stripe on the iris and an advertisement call with a duration of 189-227 ms formed by 30-35 pulses/note (male SVL 20.2-22.5 mm, vocal sac immaculate, red horizontal stripe on the iris, and advertisement call with duration 97-115 ms and 23-27 pulses/note; [8]).
Scinax juruena sp.nov. is differentiated from S. wandae by having the dorsum covered with dark brown spots and irregularly distributed blotches, the snout truncate in dorsal view, and an advertisement call with a duration of 189-227 ms, 30-35 pulses/note and a dominant frequency of 2,250-2,344 Hz (four dorsolateral stripes, snout pointed in dorsal view, and call with duration 579-639 ms, 82-90 pulses/note and dominant frequency 4,952-5,146 Hz [7,72]).

Distribution and natural history
Scinax juruena sp.nov.inhabits dense ombrophilous forest on four islands in the archipelago of the Juruena River, southern Amazonia, northwestern Mato Grosso, Brazil.The forest is dominated by trees of the genera Cecropia, Ochroma and Erythrina, with Heliconia dominant in parts of the understory [75].Massive copaiba (Copaifera langsdorffii Desf) and chestnut (Bertholletia excelsa Humb & Bonp) trees can be found on large islands (D.J. Rodrigues pers.comm.).Despite intensive sampling [76], we did not record any individual of S. juruena sp.nov. in forests on either bank of the Juruena River adjacent to the inhabited islands.
Scinax juruena sp.nov.breeds during the rainy season between November and May.Large choruses of breeding males were found after two or more days of consistently heavy rainfall.Males call while perched on shrubs and tiny trunks in or near large ponds formed by river flooding (Fig 10A) and small ponds formed by accumulation of rainwater in low-lying areas (Fig 10B).We found as many as three calling males sharing the same shrub.Other hylid frogs found breeding in the same ponds include Osteocephalus taurinus Steindachner, 1862, O. leprieurii (Dume ´ril and Bibron, 1841) and Dryaderces sp.See [76].for a checklist of species that inhabit the west bank of the Juruena River near the type locality of S. juruena sp.nov.

Discussion
Although Scinax juruena and S. sp.19 (sensu Araujo-Vieira et al. [5]) inhabit comparable riverine environments with similar flooding regimes, their distinct morphologies strongly support the hypothesis that these taxa represent distinct species.Scinax juruena differs from S. sp.19 (Fig 4) by having the head as wide as long, a vocal sac covered by dark melanophores or blotches, and a well-defined horizontal reddish brown stripe on the iris (head longer than wide, no dark melanophores or blotches in males and an inconspicuous red horizontal stripe on the iris in S. sp.19 from Madeira River; S2 Fig) .Scinax sp.19 occurs in the Madeira, Purus and Tocantins basins, while S. juruena is known only from the Juruena River (Tapajos Basin); their closest known localities are far apart (~700 km).Unsequenced specimens identified as S. (aff., cf.) cruentomma are reported from riverine environments in the Jurua ´, Negro, Tapajos, Solimões and Xingu rivers [73,[77][78][79].Including samples from these localities in future taxonomic revisions will likely increase the number of species in the S. cruentomma group.
Scinax blairi was described by Fouquette and Pyburn [67], based mostly on individuals from near the confluence of the Guaviare and Ariari rivers in Colombia (approximate geocoordinates 2˚33'N, 72˚45'W).The acoustic similarity between S. blairi and S. staufferi was noted by Fouquette and Pyburn [67] and corroborated by Ferrão et al. [7], who also highlighted the acoustic similarity of these species and others assigned to the S. cruentomma group.Although molecular data are unavailable for topotypic S. blairi, we suggest that S. sp.(S. cruentomma clade 62 sensu Vacher et al. [14]; S. wandae sensu Guarnizo et al. [11]; S. cf.wandae sensu Araujo-Vieira et al. [5]) and S. blairi may be conspecific.Individuals of S. sp. were collected by Guarnizo et al. [11] near an affluent of the Ariari River ~140 km from the type locality of S. blairi.Additionally, the coloration of the type series resembles that of S. sp.(see BOLD:ABA0452 at the BOLD website; [80]).Molecular and morphologic analyses based on fresh material from the type locality of S. blairi might resolve this issue.
Scinax juruena is the first snouted treefrog to be described from northwestern Mato Grosso and the second one named from southern Amazonia [23].Five other species of Scinax inhabit forests near the type locality: S. fuscovarius, S. garbei, S. nasicus, S. nebulosus and S. ruber [76].However, recent phylogenetic studies conducted elsewhere in Amazonia demonstrate that these taxa represent species complexes and that remote areas in Amazonia likely harbor a large number of unnamed Scinax [10,12,14,81].
Numerous small and large dams are planned for the Juruena Basin [32,33], including both downstream and upstream from the islands in the Juruena River where Scinax juruena occurs.Fluvial islands are usually affected by dam construction, even when such projects do not form large lakes, and this is likely to be the case with islands in the Juruena River.For example, all islands in the portion of the Madeira River (Rondo ˆnia, Brazil) directly impacted by the lake of the Santo Antonio Power Plant have been totally or partially flooded.Disruption of seasonal water flows downstream from reservoirs is another important by-product of the construction of hydroelectric power plants [82] that directly impacts the biological cycle of water-dependent species [83].
Scinax juruena is currently known only from four fluvial islands in a section of the Juruena River with relatively well-preserved riverine forests and with an estimated extent of occurrence (EOO) of 0.54 km 2 .Although further inventories in other sections of the Juruena River are required to better estimate the species' EOO and degree of endemism, the construction of numerous hydroelectric power plants in the region will likely jeopardize the species' survival.Moreover, the region already suffers environmental impacts such as illegal mining, overfishing, unsustainable agriculture and uncontrolled logging.Pending additional data needed to properly assess its conservation status according to International Union for Conservation of Nature (IUCN) Red List Criteria, we recommend that S. juruena be categorized as Data Deficient (DD).However, if an EOO less than 5,000 km 2 is confirmed, the species could be classified as Endangered (EN) based on criterion B1ab(iii) [84].

Fig 1 .
Fig 1. Geographic distribution of sampling sites in fluvial islands of the Juruena River, municipality of Cotriguac ¸u, state of Mato Grosso, Brazil.Numbers represent the sampled islands (Table 1).White and yellow symbols indicate the absence and presence of Scinax juruena sp.nov., respectively.Star, type locality; triangle, paratype locality.Yellow circles denote islands where uncollected individuals were recorded.NFNF, nonforest natural formation.

Fig 10 .
Fig 10.Breeding habitat of Scinax juruena sp.nov. on an island in the Juruena River, municipality of Cotriguac ¸u, state of Mato Grosso, Southern Amazonia, Brazil.(A) A large pond connected to the river.(B) A small pond formed by rainwater accumulation.https://doi.org/10.1371/journal.pone.0292441.g010