Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-12-01T03:23:54.010Z Has data issue: false hasContentIssue false

New monitoring confirms regular breeding of the Mediterranean monk seal in Northern Cyprus

Published online by Cambridge University Press:  02 March 2021

Damla Beton*
Affiliation:
North Cyprus Society for Protection of Turtles, PK.65, Kyrenia, North Cyprus (Mersin 10/Turkey).
Annette C. Broderick
Affiliation:
Centre for Ecology and Conservation, College of Life and Environmental Sciences, University of Exeter, Penryn Campus, Penryn, UK
Brendan J. Godley
Affiliation:
Centre for Ecology and Conservation, College of Life and Environmental Sciences, University of Exeter, Penryn Campus, Penryn, UK
Emre Kolaç
Affiliation:
DeepWorx Underwater Salvage & Construction, Nicosia, North Cyprus
Meltem Ok
Affiliation:
Department of Marine Biology and Fisheries, Middle Eastern Technical University, Erdemli, Turkey
Robin T. E. Snape
Affiliation:
Centre for Ecology and Conservation, College of Life and Environmental Sciences, University of Exeter, Penryn Campus, Penryn, UK
*
(Corresponding author) E-mail [email protected]

Abstract

The Endangered Mediterranean monk seal Monachus monachus is one of the most threatened marine mammals. Across Cyprus, suitable habitat and presence of monk seals is well documented and, recently, camera-trap surveys in Southern Cyprus found there to be pupping. We present results of the first camera-trap surveys in Northern Cyprus spanning the pupping period. Four adult/subadults and three pups were identified in three of eight caves monitored with camera traps. One site on the north-west of the island supported at least three adult/subadult seals and pupping occurred there in 3 consecutive years. The breeding and resting sites identified require urgent conservation to manage threats of disturbance, coastal development and fisheries bycatch. To determine the size of this population, a long-term survey with greater and more continuous coverage is required.

Type
Short Communication
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press on behalf of Fauna & Flora International

Historically, the Mediterranean monk seal Monachus monachus used open beaches for resting and breeding (González, Reference Gonzalez2015). However, in response to human pressures, pupping is now restricted to suboptimal sea cave habitats, and the species range has contracted substantially (Sergeant et al., Reference Sergeant, Ronald, Boulva and Berkes1978; Dendrinos et al., Reference Dendrinos, Karamanlidis, Kotomatas, Paravas and Adamantopoulou2010). Exploitation (Stringer et al., Reference Stringer, Finlayson, Barton and Jalvo2008), persecution, disturbance, habitat loss (Karamanlidis et al., Reference Karamanlidis, Pires, Silva and Neves2004, Reference Karamanlidis, Dendrinos, de Larrinoa, Gücü, Johnson, Kıraç and Pires2016a) and fisheries bycatch (Karamanlidis et al., Reference Karamanlidis, Androukaki, Adamantopoulou, Chatzispyrou, Johnson and Kotomatas2008) have all contributed to the decline of the species, and it is categorized as Endangered on the IUCN Red List (Karamanlidis & Dendrinos, Reference Karamanlidis and Dendrinos2015).

Monk seals have long been known to occur in Cyprus, where sightings have been relatively common (Bundone et al., Reference Bundone, Panou and Molinaroli2019). In Southern Cyprus, Dendrinos & Demetropoulos (Reference Dendrinos and Demetropoulos2000) described 18 caves, with four suitable for breeding. Systematic monitoring was established in 2011, and 14 seals have since been identified, including five pups (Nicolaou et al., Reference Nicolaou, Dendrinos, Marcou, Michaelides and Karamanlidis2019). In Northern Cyprus, Gucu et al. (Reference Gucu, Ok and Sakınan2009) described 39 caves, with eight suitable for breeding, and five seals were identified outside the breeding season. Single adult seals were found stranded dead in 2012 and 2014 (Snape et al., Reference Snape, Bradshaw, Fuller, Godley and Broderick2014), and a non-moulted pup was observed with an adult female in 2013 (Snape et al., Reference Snape, Rhodes, Fuller, Godley and Broderick2013; for standardization, we use the age–sex classification of Samaranch & González, Reference Samaranch and Gonzalez2000).

Here, towards establishing long-term population monitoring in Northern Cyprus, three previously confirmed (Gucu et al., Reference Gucu, Ok and Sakınan2009) and five potential monk seal haul-out caves (Fig. 1), were monitored intermittently using motion-activated infrared camera traps during November 2016–May 2019. Camera traps, anchored to the walls of caves, were configured to take still images with a 20 minute delay between subsequent photograph events. Where possible, seals were uniquely identified using body scars.

Fig. 1 Location of caves around the coast of Northern Cyprus monitored by camera traps for the Mediterranean monk seal Monachus monachus during 2016–2019.

The study caves (Fig. 1) were monitored for a total of 1,619 days (Fig. 2). Seals were confirmed on 63, 4 and 1 days at caves YD1, ZB6 and ZB9, respectively (Table 1). Seven seals were uniquely identified from the resulting 2,740 images of monk seals: three pups (Class O: non-moulted pup) and four juvenile–subadult–adult seals (Class B–C: i.e. all were post-neonatal moult and varying in size, see below). One seal was not identifiable as unique from the others, but may have been an additional individual (Class C; Plates 1 & 2).

Fig. 2 Camera trap monitoring periods (black horizontal line) and days on which Mediterranean monk seals were detected (diamonds), from November 2016 to May 2019.

Plate 1 Camera-trap photographs of Seal 1, which gave birth to Pups 1 and 2 at cave YD1 (Fig. 1) in (a) 2016 and (b) 2017, and of Seal 2 in 2016 (c) and 2017 (d) in cave YD1. Scars used for identification are indicated by arrows.

Plate 2 Camera-trap photographs of (a) Pup 1, which survived to post-moulting, and (b) Pup 2, which died before moulting, and images of (c) Pup 3 during monitoring (Photo: Olkan Ergüler), and (d) pup assumed to be Pup 3, stranded (Photo: Adem Kervanlı).

Table 1 Summary of monitoring days and days on which seals were detected at active caves monitored during the Mediterranean monk seal Monachus monachus breeding seasons of 2016–2018.

1 Pups 1 and 2, and Seals 1, 2, 3 and 4 are individuals identified through camera traps.

Births were recorded in cave YD1 during 2016–2017 and also a pup observed on the coast in 2018 was likely born in this cave or a nearby site. Pup 1 (sex unknown) was recorded during 25 November–9 December 2016 and a moulted pup (Class A) observed on 11 February 2017 outside the cave is considered to be this pup. Pup 2 (female) was recorded on 11 November 2017 but died at Class O. Strong storms drove waves into the back of the cave, and the mother was observed defending the pup as the water level in the cave rose. Following the storms, the healthy mother was recorded at the camera trap but the pup was not. The skull of Pup 2 was found during the following field survey in the cave and cause of death was thus attributed to the effects of wave action (Androukaki et al., Reference Androukakı, Adamantopoulou, Dendrinos, Tounta and Kotomatas1999), based on the combined circumstantial evidence. Pup 3 (male) was not photographed by the camera trap but observed as Class O at a fishing harbour east of cave YD1 on 27 October 2018, following a storm. The status of this pup was monitored until 31 October, when a Class C (subadult/adult) seal was seen in the area and the pup disappeared from surveillance. However, on 5 November, after further heavy seas, a pup assumed to be Pup 3 was found dead on a beach 9 km from cave YD1. Seal 1 (Class C: adult, female) was the mother of Pups 1 and 2 and probably Pup 3, as it was again photographed in cave YD1 during the 2018 breeding season. The birth and suckling of Pup 3 may have occurred in an area of the cave not covered by the camera trap, in a nearby cave, or on an open beach where it rested during surveillance.

Seal 2 (Class B: juvenile/subadult, female) used cave YD1 in 2016–2017. Seal 3 (Class C, sex unknown) was photographed in 2018 in cave YD1. Seal 4 (Class C, female) was photographed in cave ZB9 on 10 October 2018. A further unidentified seal (considered Class C) was observed briefly during 2018 at cave ZB6.

Until recently, Cyprus was considered part of the historical range of the Mediterranean monk seal (Karamanlidis et al., Reference Karamanlidis, Androukaki, Adamantopoulou, Chatzispyrou, Johnson and Kotomatas2008), but was not listed within the four main regions for conservation priority and action developed in a recent review (Karamanlidis et al., Reference Karamanlidis, Dendrinos, de Larrinoa, Gücü, Johnson, Kıraç and Pires2016a). Although our study was limited in its coverage and continuity (Figs 1 & 2), four Class B and C seals were individually identified and persistent annual breeding was confirmed. Given that monitoring in Southern Cyprus has also confirmed regular breeding (Nicolaou et al., Reference Nicolaou, Dendrinos, Marcou, Michaelides and Karamanlidis2019), the island is clearly important for the species. The eastern Mediterranean population is in the low hundreds of individuals, with reduced genetic diversity (Karamanlidis et al., Reference Karamanlidis, Gaughran, Aguilar, Dendrinos, Huber and Pires2016b), and thus extensive and continuous monitoring and conservation, across all of Cyprus, is a priority.

All three active caves were previously classified as such by Gucu et al. (Reference Gucu, Ok and Sakınan2009). The Yeşilırmak/Limnitis region (Cave YD1) is an annual breeding site and hosted at least three of the Class B–C individuals, demonstrating its importance as a focal point for the population. Although the suitability of the cave for breeding appears low, with just one of three monitored pups surviving to post-moulting, the coast east of the cave includes inaccessible beaches where Pup 3 was observed to haul out and rest. These could be important supporting habitats (Dendrinos et al., Reference Dendrinos, Karamanlidis, Kotomatas, Paravas and Adamantopoulou2010). Monitoring of other caves was carried out only during the 2018 pupping season, when weather conditions were particularly inclement, resulting in some data loss as a result of damage to camera traps. Gucu et al. (Reference Gucu, Ok and Sakınan2009) considered some of these sites to have the greatest potential for seal use and continued monitoring of those caves is therefore important, despite the low use reported here.

All the caves with evidence of monk seal use should be incorporated into the national network of Specially Protected Areas, with appropriate access, development and fisheries restrictions to mitigate human disturbance, habitat loss and bycatch. Development around all suitable caves should be prohibited completely, with buffer zones around caves to include restricted access to nearby coastal stretches where seals are likely to be encountered. Such measures could potentially encourage seals to return to suitable caves, such as ZB9 and KM1, which were used less than expected. Marine reserves in Greece and Madeira have banned fishing within three nautical miles of pupping caves and to the 100 m isobath, respectively (Karamanlidis et al., Reference Karamanlidis, Androukaki, Adamantopoulou, Chatzispyrou, Johnson and Kotomatas2008). Such measures may be ambitious, given established artisanal fisheries (Snape et al., Reference Snape, Broderick, Çiçek, Fuller, Tregenza, Witt and Godley2018). A vessel tracking study has shown that fishers regularly set nets around the caves (Snape, Reference Snape2018). Appropriate compromises could be reached through the introduction of small-scale fisheries co-management (Carlsson & Berkes, Reference Carlsson and Berkes2005).

Acknowledgements

We thank Ali Cemal Gücü at Middle East Technical University for his collaboration, contributions and support, the MAVA Foundation for the provision of two grants for the 2018–2019 season and beyond, the Northern Cyprus Department of Animal Husbandry, Northern Cyprus Environmental Protection Department, and the Editor and two anonymous referees for constructive suggestions.

Author contributions

Study design: DB, EK, MO, RTES, BJG; fieldwork: DB, EK; data analysis: DB; writing: all authors.

Conflicts of interest

None.

Ethical standards

This research abided by the Oryx guidelines on ethical standards.

Footnotes

*

Also at: North Cyprus Society for Protection of Turtles, Kyrenia, North Cyprus

References

Androukakı, E., Adamantopoulou, S., Dendrinos, P., Tounta, E. & Kotomatas, S. (1999) Causes of mortality in the Mediterranean monk seal (Monachus monachus) in Greece. Contributions to the Zoogeography and Ecology of the Eastern Mediterranean Region, 1, 405411.Google Scholar
Bundone, L., Panou, A. & Molinaroli, E. (2019) On sightings of (vagrant?) monk seals, Monachus monachus, in the Mediterranean Basin and their importance for the conservation of the species. Aquatic Conservation Marine and Freshwater Ecosystems, 29, 554563.10.1002/aqc.3005CrossRefGoogle Scholar
Carlsson, L. & Berkes, F. (2005) Co-management: concepts and methodological implications. Journal of Environmental Management, 75, 6576.CrossRefGoogle ScholarPubMed
Dendrinos, P. & Demetropoulos, A. (2000) The Mediterranean monk seal in Cyprus. Monachus Guardian, 3, 7577.Google Scholar
Dendrinos, P., Karamanlidis, A.A., Kotomatas, S., Paravas, V. & Adamantopoulou, S. (2010) Report of a new Mediterranean monk seal (Monachus monachus) breeding colony in the Aegean Sea, Greece. Aquatic Mammals, 34, 355361.CrossRefGoogle Scholar
Gonzalez, L.M. (2015) Prehistoric and historic distributions of the Critically Endangered Mediterranean monk seal (Monachus monachus) in the eastern Atlantic. Marine Mammal Science, 31, 11681192.CrossRefGoogle Scholar
Gucu, A.C., Ok, M. & Sakınan, S. (2009) A survey of the Critically Endangered Mediterranean monk seal, Monachus monachus (Hermann, 1779) along the coast of Northern Cyprus. Israel Journal of Ecology and Evolution, 55, 7782.CrossRefGoogle Scholar
Karamanlidis, A.A., Androukaki, E., Adamantopoulou, S., Chatzispyrou, A., Johnson, W.M., Kotomatas, S. et al. (2008) Assessing accidental entanglement as a threat to the Mediterranean monk seal Monachus monachus. Endangered Species Research, 5, 205213.CrossRefGoogle Scholar
Karamanlidis, A. & Dendrinos, P. (2015) Monachus monachus (errata version published in 2017). In The IUCN Red List of Threatened Species 2015: e.T13653A117647375. dx.doi.org/10.2305/IUCN.UK.2015-4.RLTS.T13653A45227543.en [accessed 2 October 2020].Google Scholar
Karamanlidis, A.A., Dendrinos, P., de Larrinoa, P.F., Gücü, A.C., Johnson, W.M., Kıraç, C.O. & Pires, R. (2016a) The Mediterranean monk seal Monachus monachus: status, biology, threats, and conservation priorities. Mammal Review, 46, 92105.CrossRefGoogle Scholar
Karamanlidis, A.A., Gaughran, S., Aguilar, A., Dendrinos, P., Huber, D., Pires, R. et al. (2016b) Shaping species conservation strategies using mtDNA analysis: The case of the elusive Mediterranean monk seal (Monachus monachus). Biological Conservation, 193, 7179.CrossRefGoogle Scholar
Karamanlidis, A.A., Pires, R., Silva, N.C. & Neves, H.C. (2004) The availability of resting and pupping habitat for the Critically Endangered Mediterranean monk seal Monachus monachus in the archipelago of Madeira. Oryx, 38, 180185.CrossRefGoogle Scholar
Nicolaou, H., Dendrinos, P., Marcou, M., Michaelides, S. & Karamanlidis, A.A. (2019) Re-establishment of the Mediterranean monk seal Monachus monachus in Cyprus: priorities for conservation. Oryx, published online 23 December 2019.CrossRefGoogle Scholar
Samaranch, R. & Gonzalez, L.M. (2000) Changes in morphology with age in Mediterranean monk seals (Monachus monachus). Marine Mammal Science, 16, 141157.CrossRefGoogle Scholar
Sergeant, D., Ronald, K., Boulva, J. & Berkes, F. (1978) Recent status of Monachus monachus the Mediterranean monk seal. Biological Conservation, 14, 259287.CrossRefGoogle Scholar
Snape, R.T.E. (2018) Investigating conflict between threatened marine megavertebrates and Mediterranean small-scale fisheries. PhD thesis, University of Exeter, Exeter, UK.Google Scholar
Snape, R.T.E., Bradshaw, P., Fuller, W.J., Godley, B.J. & Broderick, A.C. (2014) Marine Turtle Conservation Project Northern Cyprus. Annual report 2014, Nicosia, Cyprus.Google Scholar
Snape, R.T.E., Broderick, A.C., Çiçek, B.A., Fuller, W.J., Tregenza, N., Witt, M.J. & Godley, B.J. (2018) Conflict between dolphins and a data-scarce fishery of the European Union. Human Ecology, 46, 423433.CrossRefGoogle Scholar
Snape, R.T.E., Rhodes, K.A., Fuller, W.J., Godley, B.J. & Broderick, A.C. (2013) Marine Turtle Conservation Project Northern Cyprus. Annual report 2013, Nicosia, Cyprus.Google Scholar
Stringer, C.B., Finlayson, C., Barton, N. & Jalvo, Y.F. (2008) Neanderthal exploitation of marine mammals in Gibraltar. Proceedings of the National Academy of Sciences of the United States of America, 105, 1431914324.CrossRefGoogle ScholarPubMed
Figure 0

Fig. 1 Location of caves around the coast of Northern Cyprus monitored by camera traps for the Mediterranean monk seal Monachus monachus during 2016–2019.

Figure 1

Fig. 2 Camera trap monitoring periods (black horizontal line) and days on which Mediterranean monk seals were detected (diamonds), from November 2016 to May 2019.

Figure 2

Plate 1 Camera-trap photographs of Seal 1, which gave birth to Pups 1 and 2 at cave YD1 (Fig. 1) in (a) 2016 and (b) 2017, and of Seal 2 in 2016 (c) and 2017 (d) in cave YD1. Scars used for identification are indicated by arrows.

Figure 3

Plate 2 Camera-trap photographs of (a) Pup 1, which survived to post-moulting, and (b) Pup 2, which died before moulting, and images of (c) Pup 3 during monitoring (Photo: Olkan Ergüler), and (d) pup assumed to be Pup 3, stranded (Photo: Adem Kervanlı).

Figure 4

Table 1 Summary of monitoring days and days on which seals were detected at active caves monitored during the Mediterranean monk seal Monachus monachus breeding seasons of 2016–2018.