Monitoring Green Turtles (Chelonia Mydas) and Their Habitat Towards Mitigation of Fisher- Turtle Conflict in the Lakshadweep Islands

MONITORING GREEN TURTLES (CHELONIA MYDAS) AND THEIR HABITAT TOWARDS MITIGATION OF FISHER- TURTLE CONFLICT IN THE LAKSHADWEEP ISLANDS

Photo courtesy: Sea Turtle Conservancy Library, Tortuguero

Nupur Kale, Muralidharan M., Naveen Namboothri & Kartik Shanker

Dakshin Foundation, Bengaluru 2018

Citation: Kale, N., M. Manoharakrishnan, N. Namboothri & K. Shanker (2018) Monitoring green turtles (Chelonia mydas) and their habitat towards mitigation of fisher-turtle conflict in the Lakshadweep Islands. Report submitted to Lakshadweep Administration. Dakshin Foundation, Bengaluru.

Acknowledgements

We would like to thank the Ravi Sankaran Small Grants Programme and Rufford Foundation for funding this project. We also thank the Lakshadweep Administration, the Departments of Environment & Forest (DEF) and Science & Technology (DST) for furnishing us with the necessary permits to carry out work in the Lakshadweep Islands. Additionally, we would like to thank the Environment Wardens of Agatti, Kadmat and Kalpeni for their support during fieldwork.

We would like to thank several people from Dakshin Foundation and Centre of Ecological Sciences, Indian Institute of Science for their assistance during fieldwork. NK would like to thank Anne Heloise Theo for training and guiding fieldwork in Agatti; Nachiket Kelkar, Mahima Jaini and Meenakshi Poti for providing valuable advice for fieldwork in the region; Riyaz from Department of Environment & Forest for his help with logistics in Kalpeni; Shafeeq for helping with the translations for fisher surveys and Mahaboob Khan and Ishaan Khot for their assistance and wonderful company in Lakshadweep.

Fieldwork in the islands would not have been possible without the help of boatmen on the islands: Naseer uncle in Agatti, Mansoor bhai in Kadmat and Naushad in Kalpeni. Finally, we would like to thank all those who provided any form of assistance and made the field work easy and comfortable in Lakshadweep Islands.

INTRODUCTION

The green sea turtle (Chelonia mydas) is classified as ‘Endangered’ by the International Union for Conservation of Nature (IUCN, 2018). However, studies in the last two decades indicate an increase in green turtle populations in the Lakshadweep islands of India (Tripathy et al. 2002; 2007). Following the increase in turtle density, it was observed that the seagrass meadows in the lagoons were overgrazed (Lal et al. 2010). The decrease in seagrass cover has begun to affect seagrass associated fish species (Kelkar et al. 2013a) and is indirectly affecting the livelihood of island inhabitants dependent on lagoon fisheries. This has resulted in a conflict with fishers resenting turtles and harming or killing turtles to conserve the fish population (Arthur et al. 2013).

Our project focused on studying the green turtle population in the region and understanding their ecology. We initiated our work by monitoring the green turtles and seagrass species in the lagoon. Since the turtle-fisher conflict could have negative effects on the turtle population, we initiated a mapping exercise in areas of conflict and surveyed local fishers to document their perspectives on turtles and the conflict.

OBJECTIVES

 Monitoring green turtle distribution and diet  Mapping seagrass distribution  Mapping potential conflict areas in the lagoon  Understanding the history and present status of the turtle-fisher conflict

STUDY SITE

The Lakshadweep archipelago (8°N-12°N and, 71°E-74°E) is a group of 12 coral atolls comprising of 36 smaller islands. These islands are characterised by shallow lagoons which are suitable for seagrass species (Jagtap, 1998; 1991). A total of 8 species of seagrass are found in Lakshadweep out of which Thalassia hemprichii and Cymodocea rotundata are preferred by green turtles (Jagtap, 1998; Jagtap, 1991; Kelkar et al., 2013).

For our study, we chose Agatti, Kadmat and Kalpeni lagoons. According to recent reports, Agatti has a low density of turtles, Kadmat a moderate density and Kalpeni a high density of turtles. Additionally, Arthur et al. (2013) reported that fishers in Agatti were resentful towards turtles whereas the inhabitants of the other two islands were indifferent.

Kadmat Agatti

Kalpeni

Fig 1. Maps of the islands surveyed in this study. (Images from Google Earth)

Island Survey Period

Agatti 20-29 March 2018

Kadmat 9-18 April 2018

Kalpeni 25 April- 8 May 2018

METHODS

1) Monitoring green turtle distribution The lagoons were divided into two different regions based on their orientation (North, Central and South) and proximity to the reef (Shore, Mid Lagoon and Reef). A total of 8, 12 and 12 boat transects (1km long) were surveyed in Agatti, Kadmat and Kalpeni respectively (Fig 2).

(a) (b) (c)

Fig 2. Turtle survey transects in (a) Agatti, (b) Kadmat and (c) Kalpeni

2) Mapping the seagrass distribution The entire lagoon was divided into grids of 500x500m in which 28 points were randomly chosen using QGIS© to survey for seagrass presence (Fig 3). The points were then classified as Shore, Mid Lagoon and Reef region in the Northern, Central and Southern part of the lagoon. The chosen points were surveyed in four directions: North, South, East and West by snorkelling. After every 8 fin strokes, a sub-point was counted and the substrate was noted. Similarly, 10 sub-points were collected from each transect. On encountering seagrass, a 0.5x0.5m quadrant was laid to measure seagrass density.

(a) (b) (c)

Fig 3. Points selected for seagrass transects in (a) Agatti, (b) Kadmat and (c) Kalpeni

3) Mapping potential conflict areas in the lagoons In order to locate conflict points in the lagoons, commonly used fishing sites and turtle foraging/sighting spots were marked on maps of the islands. These maps will be useful tools in locating regions which turtles commonly use and can thus be avoided by fishermen. Moreover, overlapping the two regions will provide potential areas where conflict occurs.

4) Understanding the history and present status of the turtle-fisher conflict Questionnaires were used to collect initial data from lagoon fishers. A total of 30 fishers were surveyed from Agatti, Kadmat and Kalpeni. Snowball sampling was used to determine interviewees. The purpose of this survey was to understand the local knowledge with respect to history of turtles, turtle behaviour and fisher perception of turtles.

ANALYSIS AND RESULTS

1) Monitoring green turtle distribution In Agatti and Kadmat, the turtle encounter rate was low while Kalpeni had a higher rate than the other two. Turtles were mainly observed in the northern part of Agatti and Kadmat lagoons whereas the southern region of Kalpeni lagoon showed high turtle occurrence. Studies by Kelkar et al. (2010) and Lal et al. (2010) showed higher densities of turtles in Agatti, followed by Kavaratti and later Kadmat. Meanwhile Poti et al. (2016) and our present study show that the turtle densities are now higher in Kalpeni (Fig 4).

Turtle encounter 180 160

140 120 100 80

60 No. of turtlesof No. 40 20

South South South South South

North North North North North

Central Central Central Central Central 2016 2018 2018 2016 2018 Agatti Kadmat Kalpeni

Fig 4. No. of turtles observed in Agatti, Kadmat and Kalpeni by boat transects in 2016 (Poti et al. 2016) and 2018

2) Mapping the seagrass distribution Seagrass surveys in Agatti showed presence of patches of Thalassia, Cymodocea, Syringodium and Halophila sp. whereas only Cymodocea and Thalassia were seen in Kadmat (Fig 5). Apart from Thalassia, Syringodium was also observed in Kalpeni lagoon. Kalpeni lagoon showed high densities of Thalassia in the southern part of the lagoon with few patches in northern region (Fig 6). We also found evidence of washed up seagrass on the eastern side of Agatti during beach surveys.

140

120

100

80 Syringodium isoetifolium Thalassia hemprichii 60 Halophila ovalis 40 Cymodocea rotundata

Seagrass presence Seagrass (Encounter rate) 20

0 Central North South Central North South Central North South Agatti Kadmat Kalpeni

Fig 5. Seagrass encounter rate

Density of seagrass 4000 3500 3000 2500 2000 1500 1000 500 0 Central North South Central North South Central North South Agatti Kadmat Kalpeni

Fig 6. Density of seagrass

3) Mapping potential conflict areas in the lagoons Fishing and turtle occurrence spots were marked upon observation of the two activities. Additionally, fishers were asked to mark these sites on maps. In case of accidental capture, fishers would lift the net to release the turtles. However, during fisher interviews, they said sometimes they would hit turtles with sticks to scare them away or tie floats/plastic bottles on their flippers to keep them on the water surface. Given below are the turtle observation points and lagoon fishing sites that were marked in Agatti, Kadmat and Kalpeni. Circled areas mark common sites where turtles and fishing occur (Fig 7(a), 7(b) & 7(c)).

Fig 7(a). Observed fishing sites and turtle sighting points in Agatti (F: Fishing, T: Turtle)

Fig 7(b). Observed fishing sites and turtle sighting points in Kadmat (F: Fishing, T: Turtle)

Fig 7(c). Observed fishing sites and turtle sighting points in Kalpeni (F: Fishing, T: Turtle)

4) Understanding the history and present status of the turtle-fisher conflict Fisher responses indicated that there is currently very little to no resentment towards turtles in Agatti and Kadmat while Kalpeni fishers were unhappy due to the high turtle density in the lagoon. Previously, conflict was observed in Agatti and Kadmat (Arthur et al. 2013). Now, it appears that the turtle densities in Kalpeni have increased resulting in negative attitudes towards turtles. The common grievance was accidental capture of turtles in nets which resulted in destruction of nets or release of turtles by lifting the net due to which fishes would escape too. Some fishers mentioned that they would check their fishing site for presence of turtles before casting nets. The fishers gave the following reasons for an increase in turtle numbers: a) Turtle hunting ban b) Increased turtle nesting c) Increased amounts of seagrass in the lagoons.

DISCUSSION

In order to facilitate conservation and management, it is crucial to study all ecological aspects of a species (Hirth, 1997). Similarly, although the green turtle populations are recovering, the resentment of local communities makes it imperative to manage the turtle population in Lakshadweep Islands. Not only does this conflict threaten the recovery of green turtles but also the livelihoods of the local fishing community.

It was observed that tide influenced turtle encounters in the lagoons as more turtles were encountered during low tide. Additionally, fisher responses indicated that in addition to Kalpeni, Bangaram and Suheli also have high number of turtles. There was also seagrass found growing on the eastern side of the islands in Agatti and Kalpeni. Cymodocea was mainly identified as the seagrass species growing on the eastern side. However, detailed surveys are required to determine if there are other seagrass species found in the eastern shores of the two islands.

Results from this study reflect the need to understand more aspects of green turtle ecology. Tracking studies are required to discern their inter-island movements and in turn, varying turtle densities between islands. It also indicates that the foraging ecology of the green turtles must be studied as the seagrass sources are slowly depleting. This could cause a shift in the diet of the green turtles as they adapt to a lack of foraging resources. The change in diet could also affect the growth rates in green turtles which will then affect their reproductive ability. Moreover, it would also result in change from seagrass dominated to an algal dominated habitat in the lagoons. Hence, it is important to study green turtles, conserve seagrass meadows and associated fish species to manage the turtle population as well as protect the livelihood of fishers.

FUTURE STEPS

In the upcoming seasons, the project will proceed to study aspects of green turtle biology such as past and current diets using stable isotope analysis (SIA). This information will be useful in planning management of the population and understanding their recovery. Other behaviour such as inter-island movement and linkage with other green turtle populations in the region will be determined by initiating a tagging program and collecting genetic material respectively. Knowledge about their movements will be crucial in resolving conflict with the fishers and developing tools to conserve seagrass and lagoon fish populations. Moreover, experimental exclosures will be set up in some parts of the lagoon to test their efficiency in conserving patches of seagrass.

These approaches will not only provide insights into turtle ecology in the region but also aid in management of the population. It will also provide means to conserve the green turtle habitat, the seagrass meadows, and consequently, lagoon fish populations. This, in turn, will help in resolving the persistent fisher-turtle conflict that threatens the fisher livelihood.

REFERENCE

Arthur, R., Kelkar, N., Alcoverro, T., & Madhusudan, M. D. (2013). Complex ecological pathways underlie perceptions of conflict between green turtles and fishers in the Lakshadweep Islands. Biological Conservation. 167: 25–34.

Jagtap, T. (1998). Structure of major seagrass beds from three coral reef atolls of Lakshadweep, Arabian Sea, India. Aquatic Botany. 60(4): 397-408.

Jagtap, T. G. (1991). Distribution of seagrasses along the Indian coast. Aquatic Botany. 40(4): 379–386.

Hirth, H.F. (1997) Synopsis of the biological data on the green turtle Chelonia mydas (Linnaeus 1758). FWS Biological Report. 97(1) Tech Report, p 120.

Kelkar, N., Arthur, R., Marba, N., & Alcoverro, T. (2010). Consequences of green turtle herbivory on seagrass fishing in the Lakshadweep Islands , India meadow dynamics , fish communities and subsistence. Final Report Submitted to the Rufford Small Grants Foundation., 59.

Kelkar, N., Arthur, R., Marba, N., & Alcoverro, T. (2013a). Green turtle herbivory dominates the fate of seagrass primary production in the Lakshadweep islands (Indian Ocean). Marine Ecology Progress Series. 485: 235–243.

Kelkar, N., Arthur, R., Marba, N., & Alcoverro, T. (2013b). Greener pastures? High-density feeding aggregations of green turtles precipitate species shifts in seagrass meadows. Journal of Ecology. 101:1158–1168.

Lal, A., Arthur, R., Marba, N., Lill, A. W. T., & Alcoverro, T. (2010). Implications of conserving an ecosystem modifier: Increasing green turtle (Chelonia mydas) densities substantially alters seagrass meadows. Biological Conservation, 143(11):2730–2738.

Poti, M., Muralidharan, M., & Shanker, K. (2016). Foraging Ecology of Green Turtles (Chelonia mydas) in the Lakshadweep Islands. Report submitted to the Lakshadweep Administration. Dakshin Foundation, Bangalore.

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Tripathy, B., Shanker, K. & B. C. Choudhury (2007) The status of sea turtles and their habitats in the Lakshadweep Archipelago, India. Journal of the Bombay Natural History Society. 103(1): 33.