Using Satellite Tracking to Optimize Protection of Long-Lived Marine Species: Olive Ridley Sea Turtle Conservation in Central Africa

Tractable conservation measures for long-lived species require the intersection between protection of biologically relevant life history stages and a socioeconomically feasible setting. To protect breeding adults, we require knowledge of animal movements, how movement relates to political boundaries, and our confidence in spatial analyses of movement. We used satellite tracking and a switching state-space model to determine the internesting movements of olive ridley sea turtles (Lepidochelys olivacea) (n = 18) in Central Africa during two breeding seasons (2007-08, 2008-09). These movements were analyzed in relation to current park boundaries and a proposed transboundary park between Gabon and the Republic of Congo, both created to reduce unintentional bycatch of sea turtles in marine fisheries. We additionally determined confidence intervals surrounding home range calculations. Turtles remained largely within a 30 km radius from the original nesting site before departing for distant foraging grounds. Only 44.6 percent of high-density areas were found within the current park but the proposed transboundary park would incorporate 97.6 percent of high-density areas. Though tagged individuals originated in Gabon, turtles were found in Congolese waters during greater than half of the internesting period (53.7 percent), highlighting the need for international cooperation and offering scientific support for a proposed transboundary park. This is the first comprehensive study on the internesting movements of solitary nesting olive ridley sea turtles, and it suggests the opportunity for tractable conservation measures for female nesting olive ridleys at this and other solitary nesting sites around the world. We draw from our results a framework for cost-effective protection of long-lived species using satellite telemetry as a primary tool.

[1]  Andrew E. Myers,et al.  Meta-analysis of movements in Atlantic leatherback turtles during the nesting season : conservation implications , 2007, q-bio/0701040.

[2]  J. P. Schulz Sea turtles nesting in Surinam , 1975 .

[3]  Graham E. Forrester,et al.  Marine reserves as linked social–ecological systems , 2010, Proceedings of the National Academy of Sciences.

[4]  C. Roberts Selecting marine reserve locations : Optimality versus opportunism , 2000 .

[5]  Ian D. Jonsen,et al.  META‐ANALYSIS OF ANIMAL MOVEMENT USING STATE‐SPACE MODELS , 2003 .

[6]  Panayotis Dimopoulos,et al.  Microhabitat selection by sea turtles in a dynamic thermal marine environment. , 2009, The Journal of animal ecology.

[7]  Y. Naito,et al.  Dispersal and dive patterns in gravid leatherback turtles during the nesting season in French Guiana , 2006, q-bio/0611056.

[8]  L. Crowder,et al.  Life-history variation in marine turtles , 1994 .

[9]  S. Whiting,et al.  Migration routes and foraging behaviour of olive ridley turtles Lepidochelys olivacea in northern Australia , 2007 .

[10]  Helen Bailey,et al.  Identifying and comparing phases of movement by leatherback turtles using state-space models , 2008 .

[11]  V. Koch,et al.  Sea turtle consumption and black market trade in Baja California Sur, Mexico , 2009 .

[12]  Patrick W. Robinson,et al.  A Parsimonious Approach to Modeling Animal Movement Data , 2009, PloS one.

[13]  O. Ovaskainen,et al.  State-space models of individual animal movement. , 2008, Trends in ecology & evolution.

[14]  Ransom A. Myers,et al.  Collapse and Conservation of Shark Populations in the Northwest Atlantic , 2003, Science.

[15]  M. Girondot,et al.  Nesting estimation and analysis of threats for Critically Endangered leatherback Dermochelys coriacea and Endangered olive ridley Lepidochelys olivacea marine turtles nesting in Congo , 2009, Oryx.

[16]  M. Witt,et al.  Aerial surveying of the world’s largest leatherback turtle rookery: A more effective methodology for large-scale monitoring , 2009 .

[17]  Eliezer Gurarie,et al.  A novel method for identifying behavioural changes in animal movement data. , 2009, Ecology letters.

[18]  R. Byles,et al.  DEPARTURE OF MALE OLIVE RIDLEY TURTLES (LEPIDOCHELYS OLIVACEA) FROM A NEARSHORE BREEDING GROUND , 1996 .

[19]  Patrick W. Robinson,et al.  Electronic tracking tag programming is critical to data collection for behavioral time‐series analysis , 2011 .

[20]  M. Witt,et al.  Assessing accuracy and utility of satellite-tracking data using Argos-linked Fastloc-GPS , 2010, Animal Behaviour.

[21]  Sabrina Fossette,et al.  Breeding Periodicity for Male Sea Turtles, Operational Sex Ratios, and Implications in the Face of Climate Change , 2010, Conservation biology : the journal of the Society for Conservation Biology.

[22]  J. Musick Life In The Slow Lane: Ecology and Conservation of Long-lived Marine Animals , 1999 .

[23]  P. Dutton,et al.  Post-nesting migrations of Galápagos green turtles Chelonia mydas in relation to oceanographic conditions: integrating satellite telemetry with remotely sensed ocean data , 2008 .

[24]  M. Witt,et al.  Satellite tracking highlights difficulties in the design of effective protected areas for Critically Endangered leatherback turtles Dermochelys coriacea during the inter-nesting period , 2008, Oryx.

[25]  Corey J A Bradshaw,et al.  Measurement error causes scale-dependent threshold erosion of biological signals in animal movement data. , 2007, Ecological applications : a publication of the Ecological Society of America.

[26]  Joshua J. Millspaugh,et al.  Radio Tracking and Animal Populations , 2001 .

[27]  Larry B. Crowder,et al.  A Stage‐Based Population Model for Loggerhead Sea Turtles and Implications for Conservation , 1987 .

[28]  C. Bradshaw,et al.  Flexible inter-nesting behaviour of generalist olive ridley turtles in Australia , 2008 .

[29]  Christopher Costello,et al.  The value of spatial information in MPA network design , 2010, Proceedings of the National Academy of Sciences.

[30]  T. Ragen,et al.  Body size, survival, and decline of juvenile hawaiian monk seals, Monachus schauinslandi , 1999 .

[31]  R. Arlettaz,et al.  Insights into the management of sea turtle internesting area through satellite telemetry , 2007 .

[32]  T. Agardy,et al.  Information needs for marine protected areas : Scientific and societal , 2000 .

[33]  Ian D. Jonsen,et al.  ROBUST STATE-SPACE MODELING OF ANIMAL MOVEMENT DATA , 2005 .

[34]  Charles M. Bishop,et al.  Inter-annual variability in the home range of breeding turtles: implications for current and future conservation management. , 2010 .

[35]  L. Crowder,et al.  Life table analysis of long-lived marine species with implications for conservation and management , 1999 .

[36]  M. Fogarty,et al.  The population dynamics of little skate Leucoraja erinacea, winter skate Leucoraja ocellata, and barndoor skate Dipturus laevis: predicting exploitation limits using matrix analyses , 2002 .

[37]  Bernie J. McConnell,et al.  ASSESSMENT OF ARGOS LOCATION ACCURACY FROM SATELLITE TAGS DEPLOYED ON CAPTIVE GRAY SEALS , 2002 .

[38]  B. Wienecke,et al.  Foraging Areas of King Penguins from Macquarie Island in Relation to a Marine Protected Area , 2002, Environmental management.

[39]  L. Gerber,et al.  The use of demographic sensitivity analysis in marine species conservation planning , 2004 .

[40]  L. Boitani,et al.  Research Techniques in Animal Ecology: Controversies and Consequences , 2001 .

[41]  D. Costa,et al.  The role of body size in individual-based foraging strategies of a top marine predator. , 2010, Ecology.

[42]  Giuseppe Notarbartolo di Sciara,et al.  Mind the gap: Addressing the shortcomings of marine protected areas through large scale marine spatial planning , 2011 .

[43]  Anton D. Tucker,et al.  Nest site fidelity and clutch frequency of loggerhead turtles are better elucidated by satellite telemetry than by nocturnal tagging efforts: Implications for stock estimation , 2010 .

[44]  Stephen H Schneider,et al.  Conservation and Climate Change: the Challenges Ahead , 2006, Conservation biology : the journal of the Society for Conservation Biology.

[45]  Wayne M. Getz,et al.  LoCoH: Nonparameteric Kernel Methods for Constructing Home Ranges and Utilization Distributions , 2007, PloS one.

[46]  P. Pritchard The Conservation of Sea Turtles: Practices and Problems , 1980 .

[47]  Deborah Austin,et al.  A THREE‐STAGE ALGORITHM FOR FILTERING ERRONEOUS ARGOS SATELLITE LOCATIONS , 2003 .

[48]  J. Fretey Biogeography and conservation of marine turtles of the Atlantic coast of Africa = Biogéographie et conservation des tortues marines de la côte atlantique de l'Afrique , 2001 .

[49]  D. Doak,et al.  Assessment of demographic risk factors and management priorities: impacts on juveniles substantially affect population viability of a long‐lived seabird , 2010 .

[50]  Charles M. Bishop,et al.  Novel GPS tracking of sea turtles as a tool for conservation management , 2007 .

[51]  Greg A Breed,et al.  Sex-specific, seasonal foraging tactics of adult grey seals (Halichoerus grypus) revealed by state-space analysis. , 2009, Ecology.

[52]  B. Godley,et al.  Satellite tracking highlights the need for international cooperation in marine turtle management , 2006 .

[53]  Elizabeth A. Wentz,et al.  Birds of a feather: Interpolating distribution patterns of urban birds , 2008, Comput. Environ. Urban Syst..

[54]  S. Bograd,et al.  Identification of high-use internesting habitats for eastern Pacific leatherback turtles: role of the environment and implications for conservation , 2010 .

[55]  Robert A. Gitzen,et al.  Analysis of Animal Space Use and Movements , 2001 .

[56]  Brendan J. Godley,et al.  Unravelling migratory connectivity in marine turtles using multiple methods , 2010 .

[57]  B. W. Moser,et al.  Effects of Telemetry Location Error on Space-Use Estimates Using a Fixed-Kernel Density Estimator , 2007 .

[58]  Matthew H. Godfrey,et al.  Satellite tracking of sea turtles: Where have we been and where do we go next? , 2008 .

[59]  W. J. Nichols,et al.  Global research priorities for sea turtles: informing management and conservation in the 21st century , 2010 .

[60]  Trisalyn A. Nelson,et al.  Detecting spatial hot spots in landscape ecology , 2008 .

[61]  D. Sims,et al.  Minimizing errors in identifying Lévy flight behaviour of organisms. , 2007, The Journal of animal ecology.

[62]  B. Godley,et al.  Satellite Tracking and Analysis Tool (STAT): an integrated system for archiving, analyzing and mapping animal tracking data , 2005 .

[63]  G. Hays,et al.  Changes in behaviour during the inter-nesting period and post-nesting migration for Ascension Island green turtles , 1999 .

[64]  D. Costa,et al.  Multiple foraging strategies in a marine apex predator, the Galapagos sea lion Zalophus wollebaeki , 2008 .

[65]  Peter L. Lutz,et al.  The Biology of Sea Turtles , 1998 .

[66]  A. Broderick,et al.  The movements and submergence behaviour of male green turtles at Ascension Island , 2001 .

[67]  E. Danchin,et al.  The evolution of coloniality: the emergence of new perspectives. , 1997, Trends in ecology & evolution.

[68]  K. Eckert,et al.  Modeling loggerhead turtle movement in the Mediterranean: importance of body size and oceanography. , 2008, Ecological applications : a publication of the Ecological Society of America.

[69]  Hugh P. Possingham,et al.  Avoiding Costly Conservation Mistakes: The Importance of Defining Actions and Costs in Spatial Priority Setting , 2008, PloS one.

[70]  B. Godley,et al.  Behavioural polymorphism in one of the world’s largest populations of loggerhead sea turtles Caretta caretta , 2010 .

[71]  David Ehrenfeld,et al.  War and Peace and Conservation Biology , 2000 .

[72]  Daniel P. Costa,et al.  Accuracy of ARGOS Locations of Pinnipeds at-Sea Estimated Using Fastloc GPS , 2010, PloS one.

[73]  R. Phillips,et al.  Albatross foraging behaviour: no evidence for dual foraging, and limited support for anticipatory regulation of provisioning at South Georgia , 2009 .

[74]  David J. Anderson,et al.  Use of marine sanctuaries by far-ranging predators: commuting flights to the California Current System by breeding Hawaiian albatrosses , 2006 .