Diversity, distribution, and conservation status of fish species in Kallar Stream, Achankovil River, Western Ghats of Kerala, India

: The current study presents the findings of fish species inventories conducted at 12 locations in ‘Kallar’, the perennial tributary of the undammed Achankovil River that flows through the Achankovil Reserve Forest in Kerala State. A new checklist of ichthyofauna is prepared, by adding the updated scientific names, which comprises 35 species from 27 genera, 13 families, and eight orders. In order of abundance, Opsarius bakeri , Salmostoma boopis , and Garra surendranathanii were the most prevalent species in the Kallar tributary. Eight of the total species documented are listed as threatened on IUCN Red List. The study reports the presence of a poorly known smiliogastrin cyprinid, Dawkinsia lepida for the first time in the Achankovil River as well as the range expansion of the threatened catfish, Batasio travancoria, and the Malabar Spiny Eel Macrognathus guentheri to the Kallar tributary. The study also reports a species of Balitora from Kallar, distinct from its congeners in several morphometric and meristic characteristics. The absence of any non-native fish species in the study area revealed the pristine nature of the stream habitat. A comparison of diversity indices with the available pre-flood study revealed that the fish species composition in Kallar stream has not altered as a result of the 2018 catastrophic flood. The main existing threat is the practice of destructive fishing at high levels by local communities adjacent to but outside the forest area during the dry season by damming the streamlets and then applying plant-based piscicides. It is recommended that fishing be banned during dry season because this is the time of year when the majority of the upstream fishes breed. The existing environment and fisheries acts should also be strictly enforced. For the sake of future conservation, the competent authorities should see to it that the last remaining natural forest cover in the Kanayar and Kallar ranges are safeguarded from being converted to forest plantations.


INTRODUCTION
Documenting fish faunal diversity at periodic intervals, even within fluviatile systems inside the protected forests facilitates informing conservation status, designing specific management strategies, assessing the impacts of recent or ongoing natural hazards like flash floods and landslides, and forewarning the effects of proposed river interlinking projects and dams.Achankovil forest division, part of the Agathyamala Biosphere Reserve in Western Ghats, India has been recognised as a site that requires immediate attention in order to set up mechanism for inclusion into the protected area network by the Critical Ecosystem Partnership Fund Program (CEPF 2007).Although home to large number of native Western Ghats species, this area suffers considerable levels of forest degradation and conversion (Vijayan et al. 2021).As part of the Government of India's mega project-India Interlinking of Rivers (IIR), the Pamba-Achankovil-Vaippar water transfer link initiative, covering a portion of the forest area is proposed (NWDA 1995;Rani et al. 2016).Although, multiple researches on fish diversity of the Achankovil River have been undertaken, the main tributary, the Kallar, where the project proposed to be implemented, lacks a thorough account on the diversity and micro-level distribution of fish species.
Previous studies on the fish diversity of the Achankovil River, have either focused on the mid and downstream sections or were fractional surveys (Swapna 2009;Johnson & Arunachalam 2009).Species inventory studies pertaining to the upstream areas of Achankovil River have also either concentrated on the main Achankovil stream (Varghese 1994), or without covering all the streamlets of Kallar (Radhakrishnan 2006;Baby et al. 2011;Sabu el al. 2013), the major and the only perennial tributary inside the Achankovil Reserve Forest (ARF).Moreover, no research on the diversity of fish species has been done in the Achankovil River's headwaters following the devastating flood of 2018 to determine the effects.The current study aims to analyse the diversity and distribution pattern of ichthyofauna in Kallar Stream and prepare an updated checklist (by adding the revised scientific names) and photographic atlas, in order to address future conservation initiatives.The study also seeks to determine whether the devastating flood of 2018 had any effects on the diversity of fish species.

Study Area
Achankovil River, originates from two Western Ghats hill ranges: Kottavasal (by streams from Pasukkidai Mettu, Rishi Malai, and Ramakkal Teri) at an elevation of 700 m in Kollam District and Devarmalai at an elevation of +1,200 m in Pathanamthitta District (Image I).The rocky, undulating, and extremely rough Achankovil forest area is located on the western face of the Western Ghats (Hosagoudar et al. 2010).Two distinct and prominent valleys are found within the study area: (1) Kallar and (2) Achankovil valleys.The tract's southernmost portion is drained by the Achankovil Stream, while its northernmost portion is drained by the Kallar Stream, which eventually unites to form the Achankovil River at Mukkadamuzhi.The Kallar Stream is the principal tributary of the Achankovil River; the name is derived from the rocky nature of its bed (Pillai & Muhammad 2007).After its origin at Devarmalai, Kallar flows for 30 km in east-west direction before taking a southern turn to join the Achankovil Stream.During summer, the Achankovil tributary, which flows from Kumbhavurutty and Manalar is left with no water, while the perennial Kallar tributary remains to be the only stream to feed water to the Achankovil River.Also, the Kallar and its associated streams originate from a greater elevation compared to the Achankovil tributary.Considering all these above factors, the perennial Kallar tributary flowing through the Achankovil Reserve Forest (ARF) was selected for investigating the ichthyofaunal diversity.Sites for species inventory and diversity were chosen to cover the maximum streamlets adjoining the mainstream as well as stream mesohabitats associated with it.Accordingly, 12 sites (Table 1; Image 1) were fixed in the mainstream and streamlets; commencing from Mukkadamuzhi (54 m), the lower elevation site to Kattikkuzhi (331 m), the higher elevation site.Among the sites, Mangala, Pulikkayam, Aramba muzhi, and Mukkadamuzhi were the sites at the confluence points of streamlets.The maps for denoting the sites for species inventory were prepared using QGIS Version 3.24 (Image 1).

Fish Species Inventory
Species inventory was carried out through rapid sampling following Abd et al. (2009) by effectively deploying possible fishing contrivances and covering possible mesohabitats in order to minimize the costs and logistics for multiple sampling over a lengthy period.The sampling was resorted to one time at each site; 23166 J TT sites I to VII were covered in January and sites VIII to XII were covered in April 2019, due to logistical constraints.At each site, experimental fishing operations were performed over a distance of 100-150 m using a diverse array of fishing gears such as cast net (length 3 m, mesh size 2.5 cm, nylon webbing, lead weight 4k g), seine net (length 25 m, depth 1.63 m, mesh size 1 cm, nylon webbing, plastic floats, and lead sinkers), mosquito net of standard size, scoop net (60 x 30 cm with stainless steel frame and nylon/mosquito netting material) and hook & lines alone or in combination.Immediately after capture, fishes were counted and identified to species level following Jayaram (1999) and taxon-specific revisions (Jayaram 2006;Silva et al. 2010;Knight et al. 2015;Katwate et al. 2020).The species names and their conservation status adhere to Eschmeyer's 'Catalogue of Fishes' (Fricke et al. 2022) and IUCN (2021), respectively.Individuals of all species were photographed in the field while still alive.After being anaesthetized with clove oil, representative specimens were first fixed in 10% neutral buffered formalin and then moved to 70% ethanol for long-term storage.Specimens of each species are catalogued with voucher numbers for accession in the museum collection of the Kerala University of Fisheries and Ocean Studies (KUFOS), Kochi.Single specimen of each species was taken for preservation and genetic analysis and rest of the individuals were released back into the stream.The vernacular names of fishes were obtained from tribal communities and staff of the forest department.Identification and terminology of stream mesohabitats, follow Armantrout (1998).

Diversity Indices
Community structure analysis indices such as Margalef richness (d) Pielou's evenness (J′), Shannon diversity (H'log2), and Simpson dominance (λ), for the 12 sites were evaluated using Primer 6, following Clarke & Gorley (2006).Correlation between altitude of sampling stations and species diversity as well as richness was analysed using simple linear regression model.

RESULTS
A total of 1,808 individual fish specimens of 35 species belonging to 27 genera, 13 families, and eight orders were obtained during the study period from the Kallar Stream (Table 2 & Images 2-13 (1-35)).Of these, 27 (77%) fish species are found to be endemic to the Western Ghats, including eight species strictly restricted to streams and rivers of Kerala (Table 2).Three species reported, viz., Rasbora dandia, Pseudetroplus maculatus, and Aplocheilus lineatus are endemic to the brackish and freshwaters of India and Sri Lanka.Opsarius bakeri J TT was found to be the most common species found in almost all the sites, whereas Channa gachua (1), Ompok malabaricus (1), and Systomus sarana (3) were the rare species obtained from single sites.
Community structure analysis indices for the 12 sampling sites (Table 3) revealed that site VI has the highest species richness (d) value of 4.13, followed by Site XII having a value of 4.07.Pielou's evenness index research revealed that Site III had the maximal value (0.96), followed by Sites V and X, but Site VII had the lowest value of 0.67 due to the uneven distribution of J TT nine species.The highest species diversity (H'(log)2) was recorded at Site XI, followed by Site VI, and Site IX, whereas Site I had the lowest value.Site VII had the highest Simpson dominance index of value 0.31, followed by Site I (0.30), and the lowest for Site XI.The results of the regression analysis (Figure 4a, b) revealed significant relationships with diversity and altitude (r = 0.59, t = 2.32, p = 0.0427) and species richness and altitude (r = 0.62, t = 2.5, p <0.0317).
Comparing the diversity indices with the previous study by Sabu et al. (2013) revealed that diversity, as far as Shannon index is considered, has increased in the current study except at two sites.Mean Shannon diversity index value of 3.12 ±0.61 recorded during the present study showed an increasing trend in comparison (2.43±0.69)with Sabu et al. (2013).Though the maximum number of species and individuals were collected from Arampamoozhi (Site IX) the diversity values were low due to the dominance of Salmostoma boopis (n = 138) and Dawkinsia denisonii (n = 60).A maximum Shannon diversity index of 3.79 was recorded in Site XI, which belongs to the lower elevation zone.Whereas, rest of the higher diverse areas follow the river confluence points such as Site VI (3.76) and Site IX (3.70).
Evenness has increased in the current study except for two locations in comparison with the previous report by Sabu et al. (2013).Overall Margalef species richness seems to decline along the Kallar stream when comparing with the previous study (Sabu et al. 2013) and is prominent in two sites such as Site VII and Site X.
Simpson's dominance index showed that the dominance of certain species has increased in the current study especially in Site VII (Anakuthy) showing a higher value (λ = 0.31) when compared to previous records (Sabu et al. 2013).The higher dominance value of Site VII is mainly due to the higher number of Salmostoma boopis (n = 48) in the specified area.
Of the 35 species encountered, eight species (22.9 %) belong to IUCN threatened categories (Table 2; Figure 2) with one Critically Endangered (CR) (Mesonoemacheilus herrei); five Endangered (EN) (Dawkinsia chalakudiensis,  J TT D. denisonii, Garra surendranathani, Tor malabaricus, and Glyptothorax anamaliensis), and two Vulnerable (VU) (Laubuka fasciata and Batasio travancoria) species.Distribution of Mesonemachrilus herrei was found to be restricted to Pulikkayam (Site VI) and Arambamuzhi (Site IX); while the two species of the genus Dawkinsia (D. denisonii and D. chalakkudiensis) were co-occurring and distributed abundantly in seven sites with good population frequency (Table 2).Despite being gathered from five sites, the Endangered bagrid catfish, Batasio travancoria had a comparatively weak population compared to the good population of endangered mahseer, Tor malabaricus, at six sites.Among the Endangered species, Laubuka fasciata was the second most restricted species found only at two sites (Table 2).
The study reports the presence of the poorly known Lepida Barb Dawkinsia lepida for the first time from Achankovil River and is the second report of the endangered Chalakudy Redline Torpedo Barb D. chalakudiensis.The current study verifies the existence of Macrognathus guentheri, Anguilla bicolor, and Batasio travancoria in greater elevation gradients of the Achankovil River, despite the fact that these species had previously only been recorded by researchers from the mid and downstream areas of the river.
One positive result experienced was the absence of any records of Oreochromis mossambicus, an alien cichlid, from Kallar tributary including the site Mukkada, where the species had previously been reported.The major threat observed during the study period was the practice of destructive fishing at intense level by local communities during dry season, in streams very adjacent to but outside the forest area, by damming the channel including shallow pools followed by the application of plant-based piscicides.

DISCUSSION
Except 10 low land tolerant fish species including two catadromous eels-Anguilla bicolor, A. bengalensis, Channa pseudomarulius, Puntius mahecola, Rasbora dandia, Dawkinsia filamentosa, Pseudetroplus maculatus, Macrognathus guentheri, Systomus sarana and Xenontodon cancila-rest of the species were of intolerant fluviatile forms ranging from extreme rheophily with attachment organs in the form of oral adhesive disc (Garra sp.), thoracic friction pad (Glyptothorax sp.); without attachment organs but, with, really depressed body (Bhavania sp., Balitora From six sampling sites distributed along the inundated to elevated zones of the Achankovil River, including one site in the Achankovil tributary inside the ARF, Varghese (1994) recorded a total of 64 species, including 48 primary and 16 secondary freshwater forms, belonging to 43 genera, 28 families, and 10 orders.With the exception of Channa striata, all of the species recorded by Varghese (1994) have been reported from Kallar tributary under the current inventory, along with 19 additional species.In summary, of the 48 principal freshwater fish species found in the entire Achankovil River as reported by Varghese (1994), 24 species as well as 11 additional species have been found in the upstream Kallar tributary.Radhakrishnan (2006) reported 49 fish species, while carrying out an exhaustive ichthyofaunal inventory in 23 sites ranging from the potamonic to rhithronic zones of Achankovil River including three upstream sites-   Vazhaperiyar and Kallar in Kallar Stream and a third site in the neighbouring Achankovil Stream.All but three of the 15 species listed by Radhakrishnan (2006) (five from Kallar, seven from Achankovil, and four shared by both the streams) were collected under the current inventory.The possible reason for the absence of three rheophilic species -Barbodes carnaticus, Garra hughi, and Pristolepis marginata in the current study might be attributed to their restricted distribution within the Achankovil stream, which is supported by Baby et al. (2011).The current study added nine species additionally to the fish faunal list of Achankovil prepared by Radhakrishnan (2006).Swapna (2009) reported 52 species belonging to five orders and 18 families from four sampling locations spread along the low and midland areas of Achankovil River.Although Swapna (2009) regarded the station 'Thura' (9.124N, 77.042E) as a high land area, the altitude was below that of the lowest elevation site (54 m) fixed for sampling in the present study.In the current investigation, the Kallar tributary was found to contain 23 of the species listed by Swapna (2009), 12 additional species, including nine rheophilic forms.Among these 12 species, except Anguilla bicolor, A. bengalensis, and Channa gachua all other species were typical rheophilic forms.The reasons for the non-record of other species in the current study which were reported by Swapna (2009) might be attributed to the potamonic or secondary freshwater affinity, as these species are mostly reported from lowland inland waters in Kerala (Renjithkumar et al. 2011).
Johnson & Aruncahalam ( 2009) recorded 17 species of fishes from a single location in the downstream area outside the ARF including new record of Batasio travancoria from Achankovil River.Except for three species (Aplocheilus panchax, Puntius arenatus, and P. dorsalis) reported by Johnson & Arunachalam (2009), all other species including B. travancoria were obtained in the current study.The three species might very well be misidentified with other species of the corresponding genera in Achankovil River.Baby et al. (2011) prepared a checklist of fishes of ARF to consist of 46 species of freshwater fishes, belonging to 17 families and 31 genera, after sampling seven and four sites in the main Achankovil and Kallar streams, respectively.Seven species-Angilla bicolor, A. bengalensis, Macrognathis guentheri, Batasio travancoria, Glyptothorax annandalei, Dawkinsia lepida-and an unidentified Balitora species that were not reported by Baby et al. (2011)   J TT marginata, inferring the restricted distribution of these species to the Achankovil tributary.Sabu et al. (2013) reported 32 species of fish at 10 locations inside the Achankovil Reserve Forest as part of an ichthyofaunal survey.Eight of the 10 locations sampled by Sabu et al. (2013) belonged to the Kallar tributary and these sites are also investigated in the present study.The site with maximum elevation sampled by Sabu et al. (2013) was Kanayar (170 m), but the current study covered five additional sites >170 m.A comprehensive comparison on tributary as well as sitewise distribution of fish species was not possible with the findings of Sabu et al. (2013) as the researchers had not provided any detailed information.The current study failed to record five species recorded by them, viz., Puntius vittatus, Mystus vittatus, M. cavasius, Pseudopshromenus cupanus, and Carinotetraodon travancoricus; but reported 11 species additionally.The existence of those species in the Kallar tributary needs to be confirmed as Sabu et al. (2013) did not provide the stream-wise distribution of the fish species inside the ARF.Swapna (2007) and Kurup et al. (2004) reported Balitora brucei Gray, a species endemic to northern and northeastern India from the Achankovil River.Radhakrishnan (2006) reported this species as B. mysorensis from two localities in Kallar tributary, viz., Chittar and Pulikkayam.Swapna (2009) reported the species as B. mysorensis from two localities outside the Achankovil Reserve Forest.The current study could obtain this species of Balitora from four locations in Kallar Stream inside the ARF.On detailed examination, the species was found to differ from all extant species of Balitora from peninsular India as well as from B. brucei in several morphomeristic aspects.Hence, we tentatively consider it as an undescribed species of Balitora in the fish species list presented here.The previously known records of the Lepida Barb Dawkinsia lepida are from Bhavani River in Tamil Nadu, Chalakudy, and Muvattupuzha drainages in Kerala (Katwate et al. 2020) and the current study confirms the presence of this species in Kallar tributary of Achankovil River and it may be inferred that the species enjoys a wide distribution range and may occur beyond south of Achankovil River.
The ichthyofaunal diversity in the upstream areas of Achankovil, especially the Kallar tributary within the ARF is rich and comparable to other protected areas in Kerala in terms of the number of species reported (N) such as the Neyyar (N = 38) and Idukki (N = 40) wildlife sanctuaries (Thomas et al. 2000a); Chinnar Wildlife Sanctuary (N = 20) (Thomas et al. 1999); Chimmony (N = 34) and Peechi-Vazhani (N = 35) wildlife sanctuaries (Thomas et al. 2000b); Parambikulam National Park (N = 41) (Biju et al. 1999) and Aralam Wildlife Sanctuary (N = 33) (Shaji et al. 1995).The number of species recorded in the current study (N = 35) was equal to or higher than those encountered in several protected areas in Kerala, necessitating the conservation significance of the perennial Kallar tributary.
The lowest diversity was found at higher altitudes, and the same trend followed in Margalef richness confirmed the hypothesis of Reves-Gavilan et al. (1996), that diversity and species richness declines with increasing altitude, and was also matching with results of previous researches made in rivers of Western Ghats (Raghavan et al. 2008;Johnson & Arunachalam 2009).Fluctuations in evenness may be due to disturbances resulted by the flood.The increased number of fish species in the confluence points are attributed to the high habitat diversity or habitat heterogeneity and the observation is in agreement with Arunachalam (2000); Johnson & Arunachalam (2009).
The comparison of diversity indices with Sabu et al. (2013), revealed that the fish faunal composition has not altered due to the 2018 catastrophic flood and this might be attributed to the non-significant alterations caused due to the 2018 catastrophic flood on stream bed substrata and canopy cover in the head waters within forest areas (Raghavan 2019) as compared to large scale multiple negative consequences occurred in the downstream areas (Pereira 2018).Among the forest ranges encompassing the headwaters of Achankovil River (Achankovil, Kallar, Kanayar, and Mannarathara), Kallar and Kanayar are the ones that retain the remaining natural forest cover in the Achankovil River basin, the other two forest jurisdictions have been widely converted into teak plantations (Vijayan et al. 2021).These patches of forest might have minimised the effects of the flash flood-assisted landslides, fish habitat loss, and species displacement to a great extent in the catchment areas of the Kallar sub-basin as against the multiple adverse impacts caused in the mid and downstream areas of the Achankovil River basin and other river basins in Kerala (Pereira 2018;Cheriyan & Oommen 2020).Resistance and resilience are recognised as two crucial elements of fish species assemblage stability (Pearsons & Lamberti 1992).The current study's findings are in line with those of other studies (Meffe & Minckley 1987;Pearsons & Lamberti 1992), which have highlighted the importance of meso-and micro-habitat heterogeneity as playing a critical role in the ability of fish in streams' headwaters to withstand flash floods.Forested streams offer distinctive microhabitats for many endemic rheophilic J TT species and it can be presumable that the degradation or conversion of riparian vegetation can lead to biotic homogenization that may reduce species diversity and ecosystem services (Casatti et al. 2012).
The absence of any kind of non-native fish species including transplanted and exotic fish species from the study area, in contrast to the records of such species from other protected areas in Kerala including Periyar National Park (Biju et al. 1999;Radhakrishnan & Kurup 2010;Thomas et al. 2000a,b), revealed the pristine nature of the habitat within ARF and the efficacy of aquatic habitat conservation under forest protection.Though the presence of Mozambique Tilapia Oreochromis mossambicus has been reported by Baby et al. (2011) from Mukkadamuzhi, our detailed sampling with multiple fishing contrivances failed to obtain a single individual of the species from any of the sampling stations in Kallar tributary.Also, the indigenous Etroplin Cichlid Pseudeptroplus maculatus is found abundant (with plenty of juveniles being cared by parents) in the stream stretch at Mukkadamuzhi.The flood may have a positive impact on the displacement of tilapias to lower elevation zones, as evidenced by the reports of increased landing of tilapias from the downstream areas (Raghavan et al. 2019).The absence of non-native fish species qualifies Kallar Stream, as a reference site for future ecosystem health assessments using fish-based index of biotic integrity (IBI) for Achankovil River as used in temperate and tropical aquatic systems (Angermeier & Karr 1986;Ganasan & Hughes 1998).
Though a large share of the population of the species including threatened ones are protected within the reserve forest area, destructive fishing practices employed by the local people outside the forest area targeting mainly the migratory and nocturnal fish species such as the catadromous anguillid eels, spiny eels, and catfishes may certainly result in disruption of proper recruitment to the stock and subsequent population decline.Moreover, this type of fishing practice may have a serious negative impact on the breeding and recruitment of non-targeted species; as the majority of the hill stream fishes including most of the threatened fishes are known to breed during the post monsoon months of November to February (Ali & Prasad 2007;Thampy 2009;Solomon et al. 2011).Hence, there is an urgent need for declaring a fishing ban or closed season during these months for protecting the breeding populations and ensure proper recruitment.Also, such destructive fishing practices need to be monitored and regulated with the provisions of the Kerala Inland Fisheries and Aquaculture Act 2010, and the Environmental Protection Act 1986, Government of India.Awareness has to be created among local communities on the negative impacts of fishing during the dry season and the protection of stream habitats.
In the context of the past reduction of protected forest area in the catchment areas of Achankovil River basin by 53% from 1978 to 2015 (Vijayan et al. 2021), forestassociated habitat heterogeneity in streams supporting a rich fish diversity, conservation status and endemism of the species inhabiting, and other numerous functions offered by the riparian vegetation; the remaining natural forest cover, specifically in the Kanayar and Kallar ranges need to be protected as such from being converted to forest plantations.Also, construction of a concrete dam across the Kallar tributary (3 km upstream from the confluence point of Kallar tributary) has been envisaged in the proposed Pamba-Achankovil-Vaippar link project (NWDA 1995;Rani et al. 2016), for diverting surplus water in Pamba and Achankovil rivers in central Kerala to the deficit Vaippar in Tamil Nadu State.The location of the dam and the tunnel that is proposed to be built within the Kallar tributary includes three most species-diverse sites (Pulikkayam, Pekkuzhi, and Mukkadamuzhi) housing populations of seven threatened species, including five 'Endangered' (Dawkinsia denisonii, D. chalakudiensis, Glyptothorax anamalaiensis, Garra surendranathathanii, and Tor malabaricus) and two 'Vulnerable' (Batasio travancoria and Laubuca fasciata) species.The implementation of the proposed project could have negative effects on the natural forest cover and its dependent biodiversity, especially in the catchment areas of Kallar, which is also the type locality for the 'Critically Endangered' Tuberous Geophyte Arisaemia sarracenioides and the only known location outside the type locality for the endemic orchid species Denrobium kallarensis (Mathew et al. 2016).Considering the warning on 'the complete loss of natural forest cover within near future as the current conversion continues at the present scale' (Vijayan et al. 2021), proper environmental and ecological impact assessment studies have to be carried out prior to consideration.Given the ecological significance of the forest area associated with the Kallar tributary in relation to the endemism and threat status of the fauna and flora inhabiting it, the livelihood support that the specific forest provides to the tribal community, and the fact that the study area harbour the only remaining natural forest cover in the Achankovil River basin, the water diversion project should be abandoned.

Figure 2 .
Figure 2. Conservation status of fish species in Kallar Stream (number).

Figure 3 .
Figure 3.Comparison of diversity indices with the previous study (Sabu et al. 2013) in Kallar Stream.
from the Achankovil Reserve Forest were collected in the current study from Kallar Stream.Also, six species-Labuka fasciata, Hypselobarbus kurali, Aplocheilus lineatus, Channa gachua, Mystus malabaricus, and Ompok malabaricus-that Baby et al. (2011) described from only the Achankovil Stream were also reported in the current study.Through repeated sampling in all the stations with maximum efforts in terms of time and number of fishing operations, the current study failed to obtain individuals of Barbodes carnaticus and Pristolepis Table 3. Diversity indices of fishes recorded from the study area.S-Number of species from each site | N-Total number of individuals from each site | d-Margalef richness index | J'-Pielou's evenness index | H' (log2)-Shannon diversity index | Lambda (λ)-Simpson dominance index.

Table 2 . List and details of fish species recorded from Kallar tributary of Achankovil River, Kerala. Scientific name Common name Vernacular name (Malayalam) IUCN Red List status Sites of occurrence & total number of individuals observed Previous studies which haven't recorded the species Endemism Voucher numbers Order: Anguilliformes Family: Anguillidae
Journal of Threatened Taxa | www.threatenedtaxa.org| 26 May 2023 | 15(5):