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Seven new distributional records of cryptobenthic reef fishes in Lakshadweep, India

Published online by Cambridge University Press:  19 May 2023

Sandra Babu
Affiliation:
Cochin University of Science and Technology, Kochi, Kerala, India Marine Biodiversity and Environmental Management Division, ICAR-Central Marine Fisheries Research Institute, Abraham Madamakkal Road, Kochi 682018, Kerala, India
Alvin Anto
Affiliation:
Cochin University of Science and Technology, Kochi, Kerala, India Marine Biodiversity and Environmental Management Division, ICAR-Central Marine Fisheries Research Institute, Abraham Madamakkal Road, Kochi 682018, Kerala, India
Miriam Paul Sreeram*
Affiliation:
Marine Biodiversity and Environmental Management Division, ICAR-Central Marine Fisheries Research Institute, Abraham Madamakkal Road, Kochi 682018, Kerala, India
Kannanchery Ramanathan Sreenath
Affiliation:
Marine Biodiversity and Environmental Management Division, ICAR-Central Marine Fisheries Research Institute, Abraham Madamakkal Road, Kochi 682018, Kerala, India
*
Corresponding author: Miriam Paul Sreeram; Email: [email protected]
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Abstract

Investigations on the diversity of cryptobenthic reef fishes resulted in observation of seven new geographic records for Lakshadweep waters, India: halfbarred goby Amblygobius semicinctus, target shrimpgoby Cryptocentrus strigilliceps, thread shrimpgoby Ctenogobiops mitodes, eye-bar goby Gnatholepis anjerensis, Miki's dwarfgoby Eviota mikiae, Erythrops goby Bryaninops erythrops, and Enneapterygius sp. Ctenogobiops mitodes is a new record to Indian waters. The genera Cryptocentrus and Bryaninops are reported from Lakshadweep for the first time. The observations were conducted in the lagoon and reef slope of Kavaratti Island, one of the 12 atolls of the Lakshadweep archipelago, from January–March 2021. The cryptobenthic reef fishes were observed and recorded through underwater photography and videography.

Type
Research Article
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of Marine Biological Association of the United Kingdom

Introduction

Cryptobenthic reef fishes (hereafter CRF) are small fishes that are visually or behaviourally cryptic, i.e. they hide in cracks, holes, sand, rubble or coral heads or are camouflaged. They tend to restrict their swimming to the immediate environs of their hiding places and are among the least understood reef organisms in terms of diversity, ecology and distribution owing to their cryptic nature. Their size range is limited to less than 50 mm (Depczynski & Bellwood, Reference Depczynski and Bellwood2003) or 100 mm.

Brandl et al. (Reference Brandl, Goatley, Bellwood and Tornabene2018) noted that 100 mm is sometimes used , but they retained the size as typically less than 50 mm as per various definitions. The latter work is the most recent thorough analysis on CRFs, defining them by size range and reef relationships and identifying 17 major cryptobenthic families: Aploactinidae, Apogonidae, Blenniidae, Bythitidae, Callionymidae, Chaenopsidae, Creediidae, Dactyloscopidae, Gobiidae, Gobiesocidae, Grammatidae, Labrisomidae, Opistogathidae, Plesiopidae, Pseudochromidae, Syngnathidae and Tripterygiidae.

The Lakshadweep atolls are an oceanic coral archipelago in the tropical western Indian Ocean. It consists of 36 islands, with 10 of them being inhabited. Every inhabited island has a lagoon within it that is bordered by reef, except for Androth (Sinha, Reference Sinha1994). Reef fish diversity research has been conducted in this region over the last 130 years. Major comprehensive work on reef fishes of Lakshadweep includes Jones & Kumaran (Reference Jones and Kumaran1980) and Murty (Reference Murty2002). A checklist of Lakshadweep fishes was provided by Rajan et al. (Reference Rajan, Rajan, Mishra, Abdul Raheem, Shrinivaasu, Surendar and Damodhar2021) which included 86 CRF species. We provide reports of seven new fish records from Lakshadweep that were observed during a fish faunal diversity study in Kavaratti atoll. The study adds to the information about the CRF community in this region. Since CRF are coral symbionts this information is helpful in understanding reef fish diversity and function in the region.

Materials and methods

Fish faunal diversity surveys using the Underwater Visual Census method in the lagoon (depth 0.3–4 m) and reef slopes (depth  5 m) covering a total of 11 stations off Kavaratti Island, which were carried out from January–March 2021. Fishes were photographed and videographed underwater using TG6 Olympus, GoPro Hero 9 and Nikon W300 cameras. The geographic coordinates where the fishes were photographed (Figure 1) were recorded using the Nikon W300 camera. Snorkelling was done at 0.3–1 m depth. Scuba was employed for depths from 3–15 m. Most of the surveys included exploring crevices, rubble, sand and live corals for CRFs. Identification of documented fishes was carried out using relevant literature (Smith & Heemstra, Reference Smith and Heemstra1986; Lieske & Myers, Reference Lieske and Myers2002; Allen, Reference Allen2009; Allen et al., Reference Allen, Steene, Humann and Deloach2015), and other published literature on specific groups. Geographic distributions of the identified species were referred from the relevant literature (Froese & Pauly, Reference Froese and Pauly2022; Heemstra et al., Reference Heemstra, Heemstra, Ebert, Holleman and Randall2022) and additional literature references collected for identified species. Taxonomic experts were consulted for confirming doubtful species. All seven new recorded species are confirmed as CRF through Brandl et al.'s (Reference Brandl, Goatley, Bellwood and Tornabene2018) classification.

Figure 1. Map indicating the locations where the newly recorded CRF species were sighted.

Results and discussion

The underwater surveys yielded a total of 26 CRFs, with seven species belonging to two families (Gobiidae and Trypterigidae) and are new records for the Lakshadweep fish fauna. The newly recorded CRFs are Cryptocentrus strigilliceps, Ctenogobiops mitodes, Gnatholepis anjerensis, Amblygobius semicinctus, Eviota mikiae, Bryaninops erythrops and Enneapterygius sp. Of these, fishes of the genus Cryptocentrus and Bryaninops were not reported earlier from Lakshadweep. Ctenogobiops mitodes is a new record for Indian waters.

New distributional records of CRF from Lakshadweep

(1) Cryptocentrus strigilliceps (Jordan & Seale, 1906)
Target shrimpgoby
Family: Gobiidae
Figure 2A & B

Observation details

Target shrimpgoby, Cryptocentrus strigilliceps, ~6 cm TL, spotted near the coral at 3 m depth in the Kavaratti lagoon (10.551304°N 72.622689°E), Lakshadweep, India.

Figure 2. (A and B) Cryptocentrus strigilliceps spotted near a shrimp burrow, Kavaratti lagoon.

Diagnosis

Goby belonging to the Cryptocentrus strigilliceps complex consisting of C. altipinna, C. caeruleomaculatus and C. strigilliceps, the group being characterized within the genus in having ctenoid scales on the posterior part of the body, in comparison with other congeners which have cycloid scales (Hoese, Reference Hoese2019). Cryptocentrus strigilliceps is distinguished from C. altipinna and C. caeruleomaculatus by the presence of predorsal midline scales and a noticeable eye-sized dark spot with white margin placed above the midline and below the first dorsal fin.

Distribution

Cryptocentrus strigilliceps is an Indo-Pacific species reported from Gilbert Island and Tonga in the West Pacific to Somalia and Comoros Island of Eastern Africa and found through Micronesia, Northern Great Barrier Reef, Indonesia and north up to Philippines, Vietnam and Taiwan (Froese & Pauly, Reference Froese and Pauly2022), and also in Andaman and Nicobar Islands (Rajan et al., Reference Rajan, Sreeraj and Immanuel2013).

(2) Ctenogobiops mitodes Randall et al., Reference Randall, Shao and Chen2007
Thread shrimpgoby
Family: Gobiidae
Figure 3A & B

Observation details

A pair of thread shrimpgoby, Ctenogobiops mitodes, ~5 cm TL, spotted in shrimp burrow near the coral beds at a depth of 2.5 m in the Kavaratti lagoon (10.552917°N 72.625008°E), Lakshadweep, India.

Figure 3. (A and B) Ctenogobiops mitodes spotted near a shrimp burrow in the Kavaratti lagoon.

Diagnosis

Four longitudinal rows of dark markings, the third row having the largest, on the body. Prominent white spot on pectoral fin. Elongated second spine in dorsal fin main distinguishing feature of this species. Subsequently the same fishes spotted on several occasion on the sandy bottom of the Kavaratti lagoon, typically in pairs. Similar to Ctenogobiops pomastictus, but distinguished from the same by the robust second dorsal spine and a single row of three dots on the cheek. All thread shrimpgobies observed had a row of three dark spots on cheek which may be less than two to three in the case of C. pomastictus. Also the large midlateral row spots lack yellow centres which are characteristically present in C. pomastictus (Randall et al., Reference Randall, Shao and Chen2007).

Distribution

Reported from the Western Pacific regions of Indonesia to Papua New Guinea and Australia and east towards the Islands of Oceania such as Fiji, Marshall Islands, New Caledonia and Solomon Islands (Froese & Pauly, Reference Froese and Pauly2022).

(3) Gnatholepis anjerensis (Bleeker, 1851)
Eye-bar goby
Family: Gobiidae
Figure 4A & B

Observation details

A female eye-bar goby Gnatholepis anjeresis, ~8 cm TL, spotted on sandy bottom at a depth of 2 m in the Kavaratti lagoon (10.558326°N 72.623437°E), Lakshadweep, India.

Figure 4. (A and B) Gnatholepis anjerensis was observed on the sandy area of the Kavaratti lagoon.

Diagnosis

Pectoral fin features fine white speckles. Several black or reddish spots present on body, including the nape. Five to six faded dark elongate blotches present on the mid part of the body. Head and body appear stocky. First dorsal fin with squarish appearance due to the presence of a long 5th spine which is almost equal to the 3rd and 4th spine. The shape of this fin distinguishes it from its closest congener Gnatholepis caurensis, which has a rounded first dorsal fin lacking a long 5th dorsal spine.

Distribution

Gnatholepis anjerensis is found in the Indo-Pacific region from South Africa to Society Islands including Mozambique, Kenya, Egypt and Comoros islands along Africa, the Persian Gulf and Red Sea, Maldive Islands, Chagos Islands, the Arabian Sea, the Andaman Sea, Australia, the Banda Sea, the Coral Sea, Fiji, and French Polynesia, Hawaii and northward up to Taiwan and Ryukyu Islands (Larson & Buckle, Reference Larson and Buckle2012; Froese & Pauly, Reference Froese and Pauly2022).

(4) Amblygobius semicinctus (Bennett, 1833)
Halfbarred goby
Family: Gobiidae
Figure 5A & B

Observation details

Male and female halfbarred goby, Amblygobius semicinctus, ~7 cm TL, spotted in a sandy region near coral rock at a depth of 3 m in the Kavaratti lagoon (10.558902°N 72.624148°E), Lakshadweep, India.

Figure 5. (A and B) Amblygobius semicinctus observed near coral rock in the Kavaratti lagoon.

Diagnosis

Body greyish, with a pale ventral half. Ventral side of the head with blue-green dots and short lines. Female with a set of four narrow dark bands on the sides and six white bars on the abdomen. A dark brown band running from frontal snout to eye and continuing as a double band behind the eye. A dark reddish eye-sized spot in the middle of first dorsal fin and another at the base of caudal fin. Male with four or five indistinct narrow dark bars on the side of the body, overlaid by dark and pale patches and blotches. Only one congener, Amblygobius albimaculatus, has been reported in Lakshadweep thus far. The main distinction between A. semicinctus and A. albimaculatus is that in the female A. semicinctus characteristic bands as mentioned above are present whereas A. albimaculatus lacks the same (Randall & Goren, Reference Randall and Goren1993).

Distribution

Amblygobius semicinctus is native to the Western Indian Ocean, which includes Mozambique, Chagos, Seychelles and Indonesia (Froese & Pauly, Reference Froese and Pauly2022). This species is reported from Maldives (Randall & Goren, Reference Randall and Goren1993) and also in Andaman and Nicobar Islands (Rajan et al., Reference Rajan, Sreeraj and Immanuel2013).

(5) Eviota mikiae Allen, 2001
Miki's dwarfgoby
Family: Gobiidae
Figure 6

Observation details

Miki's dwarfgoby, Eviota mikiae, ~3 cm TL, spotted on live Porites in the reef slope area at a depth of 15.3 m off Kavaratti Island (10.572594°N 72.627245°E), Lakshadweep, India.

Figure 6. Eviota mikiae spotted on the live coral on the Kavaratti reef slope.

Diagnosis

Body translucent with a conspicuous dark anterior nasal tube. Two patches of darkly pigmented chromatophores found behind the eye on the dorsal portion of head, separated by a short pale area along the midline. Only one congener of this species, Eviota distigma, has been reported from Lakshadweep so far, which is morphologically very distinct from E. mikiae (Greenfield & Winterbottom, Reference Greenfield and Winterbottom2016).

Distribution

Eviota mikiae has a distribution that is restricted to the Indian Ocean including Seychelles, Maldives, Chagos, Thailand and Indonesia.

(6) Bryaninops erythrops (Jordan & Seale, 1906)
Erythrops goby
Family: Gobiidae
Figure 7A & B

Observation details

Two individuals of Erythrops goby, Bryaninops erythrops, ~2 cm TL, observed resting on live Porites sp. at a depth of 2.2 m in the Kavaratti lagoon (10.574641°N 72.632214°E), Lakshadweep, India.

Figure 7. (A and B) Bryaninops erythrops spotted on live Porites on the Kavaratti lagoon.

Diagnosis

Species distinguished by a transparent body with a dark to dusky internal half body. Internal bars rarely visible. White internal pigment present in the brain region and a white line along the top of the vertebral column. To date, no congener of this species has been reported from Lakshadweep. Bryaninops erythrops closely resemble B. loki, which possesses seven visible bars on the body that may get broader on the ventral side which are absent in B. erythrops.

Distribution

The native range of Bryaninops erythrops in the Indo-Pacific region extends from Micronesian islands of Marshall, eastern Caroline and Mariana to American Samoa, Fiji and New Caledonia and the Great Barrier Reef in the western Pacific. It is also reported from Chagos and Comoros Island in the Indian Ocean. Distribution is seen in Papua New Guinea, Philippines, Thailand and Taiwan in the northern limits (Winterbottom and Anderson, Reference Winterbottom and Anderson1997; Froese & Pauly, Reference Froese and Pauly2022).

(7) Enneapterygius sp.
Family: Tripterygiidae
Figure 8

Observation details

A solitary triplefin, ~2 cm TL, spotted on Porites coral at a depth of 2 m in the Kavaratti lagoon (10.562610°N 72.625738°E), Lakshadweep, India.

Figure 8. Enneapterygius sp. spotted on live Porites in the Kavaratti lagoon.

Diagnosis

It was not possible to identify this specimen to species level due to complicated morphological traits within this family which are not evident in photographs. The presence of three dorsal fins is the most distinguishing feature of this family. The genus Enneapterygius is distinguished by a distinct lateral line. The colourful pattern in fluorescent blue on the head and around the eye and a dark spot on the base of the pectoral fin of the Enneapterygius specimen seen in this study are interesting.

Remarks

Enneapterygius sp. recorded in the current study appears to be an undescribed one, owing to the distinct fluorescent blue markings in the head and eye regions.

Research in fish faunal diversity has been ongoing in Lakshadweep for over a century. Cryptobenthic fishes have been recorded along with other species, with 89 species being reported so far, though until recently they were not subjected to detailed studies perhaps owing to the characteristic cryptic behaviour and occurrence which makes them difficult subjects. All the seven records in the present study are new to Lakshadweep waters. Six of the seven new records are from the Gobiidae family. Gobies are the most diverse family in the Indo-Pacific region (Randall & Goren, Reference Randall and Goren1993). Twenty-six gobies have been documented amongst the reef fishes in Lakshadweep with 24 species being listed by Rajan et al. (Reference Rajan, Rajan, Mishra, Abdul Raheem, Shrinivaasu, Surendar and Damodhar2021) and another two recently added by Sreeraj et al. (Reference Sreeraj, Sen and Raghunathan2022). The majority of these species are a shared diversity with the reefs of Maldives (Randall & Goren, Reference Randall and Goren1993). The current records increase the tally of gobiid species to 32 for the Lakshadweep islands. Amongst the 16 extant Amblygobius species only two others, A. albimaculatus and A. sphynx, have been reported from India (Mohapatra et al., Reference Mohapatra, Mishra, Bineesh, Rajendra, Ray, Mohanty, Roy, Chandra, Ragunathan and Mondal2020). Amblygobius semicinctus with distribution within the Indian Ocean has been found in nearby islands including Maldives, Chagos and also in the Andaman and Nicobar (Winterbottom & Emery, Reference Winterbottom and Emery1986; Rajan & Mishra, Reference Rajan and Mishra2018). Ctenogobiops genus consisting of 13 species is well distributed in the Indo-Pacific (Randall & Goren, Reference Randall and Goren1993) though only one species, C. crocines, has been earlier reported from India, with its record being from Lakshadweep. Ctenogobiops mitodes has been reported from Malaysia, Japan, South China and Marshall Islands (Randall et al., Reference Randall, Shao and Chen2007; Wu et al., Reference Wu, Zhong and Chen2009; Du et al., Reference Du, Loh, Hu, Zheng, Affendi, Ooi, Ma, Rizman-Idid and Chan2019). Earlier only Gnatholepis caurensis represented the genus in Indian waters and was recorded from Lakshadweep. Eviota distigma reported from Lakshadweep was earlier the only representative of the genus in Indian waters. Seven species of Cryptocentrus genus have been reported from Indian waters so far including Cryptocentrus fasciatus, C. octofasciatus, C. pavaninoides, C. strigilliceps, from the Andaman and Nicobars (Rao, Reference Rao2009; Rajan et al., Reference Rajan, Sreeraj and Immanuel2013), and C. gymnocephalus (Ramesh et al., Reference Ramesh, Nammalwar and Gowri2008), C. cinctus (Kumar et al., Reference Kumar, Geetha and Sornaraj2013) and C. cyanotaenia (Kumar et al., Reference Kumar, Prakash, Vishwas and Gunasundari2015) from the Gulf of Mannar preceding the current report of Cryptocentrus strigilliceps from Lakshadweep.

Trypterigidae is represented by two genera in Indian waters, namely Helcogramma and Enneapterygius, with a total of six species. Enneapterygius which has 63 extant species was earlier represented by four species in Indian waters namely E. elegans recorded from the Gulf of Mannar (Lal Mohan, Reference Lal Mohan1971) and E. puscillus, E. fasciatus (Fricke, Reference Fricke1997; Kapoor et al., Reference Kapoor, Dayal and Ponniah2002) and E. clarkae (Sreeraj et al., Reference Sreeraj, Sen and Raghunathan2022) from Lakshadweep.

Cryptobenthic families have limited representation in Indian fish faunal records perhaps owing to very few investigations into cryptic species. Most CRF are shy organisms, with many being burrowing symbionts and do not come to notice during underwater studies unless specially surveyed for. Concentrated efforts on recording cryptobenthic species are bound to yield several more records in the Lakshadweep and being sensitive species, they will prove to be indicators of reef health and resilience.

Acknowledgements

The authors would like to thank the Director of ICAR-CMFRI, Kochi, for the facilities given during the study. We are also grateful to the Lakshadweep Administration, Kavaratti, Lakshadweep, and Krishi Vigyan Kendra (KVK), Kavaratti, Lakshadweep for their immense help in conducting the fieldwork. The authors are thankful to Dr Helen Larson (Museum of Tropical Queensland, Wongaling Beach, Townsville, Australia), Dr Wouter Holleman (South African Institute of Aquatic Biology) and Dr David Greenfield (California Academy of Sciences) for expert opinion on the identification of species. The first and second authors are grateful to the Cochin University of Science and Technology, Kochi for guidance and to the Council of Scientific and Industrial Research and the University Grants Commission, respectively for fellowship and research contingency.

Author contributions

SB and AA conducted the Lakshadweep field survey. SB and AA collected photographs of fishes, and developed the concept for this manuscript. MPS and SB confirmed the identification of the new species records. SB, MPS, SKR edited and finalized the manuscript. The final manuscript was read and approved by all authors.

Financial support

This research received no specific grant from any funding agency, commercial or not-for-profit sectors.

Conflict of interest

The authors declare none.

References

Allen, GR (2009) Field Guide to Marine Fishes of Tropical Australia and South-East Asia, 4th Edition. Welshpool: Western Australian Museum.Google Scholar
Allen, G, Steene, R, Humann, P and Deloach, N (2015) Reef Fish Identification: Tropical Pacific, 2nd Edition. Jacksonville, Florida: New World Publication, .Google Scholar
Brandl, SJ, Goatley, CH, Bellwood, DR and Tornabene, L (2018) The hidden half: ecology and evolution of cryptobenthic fishes on coral reefs. Biological Reviews 93, 18461873.CrossRefGoogle ScholarPubMed
Depczynski, M and Bellwood, DR (2003) The role of cryptobenthic reef fishes in coral reef trophodynamics. Marine Ecology Progress Series 256, 183191.CrossRefGoogle Scholar
Du, J, Loh, KH, Hu, W, Zheng, X, Affendi, YA, Ooi, JL, Ma, Z, Rizman-Idid, M and Chan, AA (2019) An updated checklist of the marine fish fauna of Redang Islands, Malaysia. Biodiversity Data Journal 7, 192. https://doi.org/10.3897/BDJ.7.e47537.CrossRefGoogle ScholarPubMed
Fricke, R (1997) Tripterygiid Fishes of the Western and Central Pacific, with Descriptions of 15 new species, Including an Annotated Checklist of World Tripterygiidae (Teleostei). Königstein: Koeltz Scientific Books, 607 pp.Google Scholar
Froese, R and Pauly, D (2022) FishBase. World Wide Web Electronic Publication www.fishbase.org version (02/2022).Google Scholar
Greenfield, DW and Winterbottom, R (2016) A key to the dwarfgoby species (Teleostei: Gobiidae: Eviota) described between 1871 and 2016. Journal of the Ocean Science Foundation 24, 5357.Google Scholar
Heemstra, PC, Heemstra, E, Ebert, DA, Holleman, W and Randall, JE (2022) Coastal Fishes of Western Indian Ocean (vols 1–5). Makhanda: South African Institute for Aquatic Biodiversity.Google Scholar
Hoese, D (2019) A review of the Cryptocentrus strigilliceps complex (Teleostei: Gobiidae), with description of a new species. Journal of the Ocean Science Foundation 32, 2338.Google Scholar
Jones, S and Kumaran, M (1980) Fishes of the Laccadive Archipelago. The Nature Conservation and Aquatic Sciences Service, Trivandrum, Kerala, India, 760 pp.Google Scholar
Kapoor, D, Dayal, R and Ponniah, AG (2002) Fish Biodiversity of India. Lucknow, India: National Bureau of Fish Genetic Resources. 775 pp.Google Scholar
Kumar, YJS, Geetha, S and Sornaraj, R (2013) Diversity and distribution of reef fishes in Gulf of Mannar islands, India. In Venkataraman K, Sivaperuman C and Raghunathan C (eds), Ecology and Conservation of Tropical Marine Faunal Communities. Berlin: Springer-Verlag, pp. 297310. https://doi.org/10.1007/978-3-642-38200-0_19.CrossRefGoogle Scholar
Kumar, TT, Prakash, S, Vishwas, R and Gunasundari, V (2015) First record of two species of goby fish, Cryptocentrus cyanotaenia Bleeker and Istigobius diadema Steindachner (Perciformes: Gobiidae) in Indian waters. Indian Journal of Geo-Marine Sciences 44, 12521256.Google Scholar
Lal Mohan, RS (1971) Helcogramma shinglensis, a new species of tripterygid fish from Gulf of Mannar with a key to the fishes of the family Tripterygidae of eastern and central Indian Ocean. Senckenbergiana Biologica 52, 219223.Google Scholar
Larson, H and Buckle, DJ (2012) A revision of the goby genus Gnatholepis Bleeker (Teleostei, Gobiidae, Gobionellinae), with description of a new species. Zootaxa 3529, 169.CrossRefGoogle Scholar
Lieske, E and Myers, R (2002) Coral Reef Fishes: Indo-Pacific and Caribbean. Revised Edition. London: Harper Collins Publishers, 400 pp.Google Scholar
Mohapatra, A, Mishra, SS, Bineesh, KK, Rajendra, S, Ray, D, Mohanty, SR and Roy, S (2020) Pisces. In Chandra, K, Ragunathan, C and Mondal, T (eds), Faunal Diversity of Biogeographic Zones: Coasts of India. Kolkata, India: Zoological Survey of India, pp. 1807.Google Scholar
Murty, VS (2002) Marine ornamental fish resources of Lakshadweep. CMFRI, Special Publication 72, 1134.Google Scholar
Rajan, PT and Mishra, SS (2018) Fishes of Andaman and Nicobar Islands – an updated checklist. Journal of the Andaman Science Association 23, 148181.Google Scholar
Rajan, R, Rajan, PT, Mishra, SS, Abdul Raheem, CN, Shrinivaasu, S, Surendar, C and Damodhar, AT (2021) Fishes of Lakshadweep archipelago: new records, review and a revised checklist. Marine Biodiversity Records 14, 13.CrossRefGoogle Scholar
Rajan, PT, Sreeraj, CR and Immanuel, TI (2013) Fishes of Andaman and Nicobar Islands: a checklist. Journal of the Andaman Science Association 18, 4787.Google Scholar
Ramesh, R, Nammalwar, P and Gowri, VS (2008) Database on coastal information of Tamilnadu. Institute for Ocean Management, Anna University, Chennai. Report submitted to Environmental Information System (ENVIS), Department of Environment, Government of Tamilnadu, Chennai, 133 pp.Google Scholar
Randall, JE and Goren, M (1993) A review of the gobioid fishes of the Maldives. Ichthyological Bulletin of the JLB Smith Institute of Ichthyology 58, 137.Google Scholar
Randall, JE, Shao, KT and Chen, JP (2007) Two new shrimp gobies of the genus Ctenogobiops (Perciformes: Gobiidae), from the western Pacific. Zoological Studies 46, 2634.Google Scholar
Rao, DV (2009) Checklist of fishes of Andaman & Nicobar Islands, Bay of Bengal. Environment and Ecology 27, 34353.Google Scholar
Sinha, B (1994) Geo-economic Survey of Lakshadweep. New Delhi: Concept Publishing Company, 256 pp.Google Scholar
Smith, MM and Heemstra, PC (eds) (1986) Smiths’ Sea Fishes. Johanessburg: Macmillan, 1047 pp.CrossRefGoogle Scholar
Sreeraj, CR, Sen, A and Raghunathan, C (2022) Report of three crypto-benthic reef fishes from Lakshadweep islands, India. Journal of Asia-Pacific Biodiversity 15, 647652. https://doi.org/10.1016/j.japb.2022.08.004.CrossRefGoogle Scholar
Winterbottom, R and Emery, A (1986) Review of the gobioid fishes of the Chagos Archipelago, central Indian Ocean. Royal Ontario Museum Life Sciences Contributions 142, 182.Google Scholar
Winterbottom, R and Anderson, RC (1997) A revised checklist of the epipelagic and shore fishes of the Chagos Archipelago, Central Indian Ocean. Ichthyological Bulletin of the JLB Smith Institute of Ichthyology 66, 128.Google Scholar
Wu, HL, Zhong, JS and Chen, I (2009) Taxonomic research of the gobioid fishes (Perciformes: Gobioidei) in China. Korean Journal of Ichthyology 21, 6372.Google Scholar
Figure 0

Figure 1. Map indicating the locations where the newly recorded CRF species were sighted.

Figure 1

Figure 2. (A and B) Cryptocentrus strigilliceps spotted near a shrimp burrow, Kavaratti lagoon.

Figure 2

Figure 3. (A and B) Ctenogobiops mitodes spotted near a shrimp burrow in the Kavaratti lagoon.

Figure 3

Figure 4. (A and B) Gnatholepis anjerensis was observed on the sandy area of the Kavaratti lagoon.

Figure 4

Figure 5. (A and B) Amblygobius semicinctus observed near coral rock in the Kavaratti lagoon.

Figure 5

Figure 6. Eviota mikiae spotted on the live coral on the Kavaratti reef slope.

Figure 6

Figure 7. (A and B) Bryaninops erythrops spotted on live Porites on the Kavaratti lagoon.

Figure 7

Figure 8. Enneapterygius sp. spotted on live Porites in the Kavaratti lagoon.