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Animal migration tracking

February 16, 2024

Animal migration tracking is used in wildlife biology, conservation biology, ecology, and wildlife management to study animals' behavior in the wild. One of the first techniques was bird banding, placing passive ID tags on birds legs, to identify the bird in a future catch-and-release. Radio tracking involves attaching a small radio transmitter to the animal and following the signal with a RDF receiver. Sophisticated modern techniques use satellites to track tagged animals, and GPS tags which keep a log of the animal's location. With the Emergence of IoT the ability to make devices specific to the species or what is to be tracked is possible. One of the many goals of animal migration research has been to determine where the animals are going; however, researchers also want to know why they are going "there". Researchers not only look at the animals' migration but also what is between the migration endpoints to determine if a species is moving to new locations based on food density, a change in water temperature, or other stimulus, and the animal's ability to adapt to these changes. Migration tracking is a vital tool in efforts to control the impact of human civilization on populations of wild animals, and prevent or mitigate the ongoing extinction of endangered species.

Radio-collared wolf in Yellowstone National Park
Employee of US Fish and Wildlife Service tracking a mountain lion tagged with a radio collar

Technologies edit

 
A monarch butterfly shortly after tagging at the Cape May Bird Observatory Cape May Bird Observatory is one of the organizations that has a monarch identification tagging program. Plastic stickers are placed on the wing of the insect with identification information. Tracking information is used to study the migration patterns of monarchs, including how far and where they fly.

In the fall of 1803, American Naturalist John James Audubon wondered whether migrating birds returned to the same place each year. So he tied a string around the leg of a bird before it flew south. The following spring, Audubon saw the bird had indeed come back.

Scientists today still attach tags, such as metal bands, to track movement of animals. Metal bands require the re-capture of animals for the scientists to gather data; the data is thus limited to the animal's release and destination points.

Recent technologies have helped solve this problem. Some electronic tags give off repeating signals that are picked up by radio devices or satellites while other electronic tags could include archival tags (or data loggers). Scientists can track the locations and movement of the tagged animals without recapturing them using this RFID technology or satellites. These electronic tags can provide a great deal of data. Modern technologies are also smaller, minimizing the negative impact of the tag on the animal.[1]

Radio tracking edit

Main article: Wildlife radio telemetry
 
The right one of these two brush-tailed rock-wallabies is wearing a radio tracking collar.

Tracking an animal by radio telemetry involves two devices. Telemetry, in general, involves the use of a transmitter that is attached to an animal and sends out a signal in the form of radio waves, just as a radio station does.[2] A scientist might place the transmitter around an animal's ankle, neck, wing, carapace, or dorsal fin. Alternatively, they may surgically implant it as internal radio transmitters have the advantage of remaining intact and functioning longer than traditional attachments, being protected from environmental variables and wear.[3] The transmitter typically uses a frequency in the VHF band as antennas in this band are conveniently small. To conserve battery power the transmitter usually transmits brief pulses, perhaps one per second. A specialized radio receiver called a radio direction finding (RDF) receiver picks up the signal. The receiver is usually in a truck, an ATV, or an airplane.[2] The receiver has a directional antenna (usually a simple Yagi antenna) which receives most strongly from a single direction, and some means of indicating the strength of the received signal, either by a meter or by the loudness of the pulses in earphones. The antenna is rotated until the received radio signal is strongest; then the antenna is pointing toward the animal. To keep track of the signal, the scientist follows the animal using the receiver. This approach of using radio tracking can be used to track the animal manually but is also used when animals are equipped with other payloads. The receiver is used to home in on the animal to get the payload back.

Another form of radio tracking that can be utilized, especially in the case of small bird migration, is the use of geolocators or "geologgers".[4] This technology utilizes a light sensor that tracks the light-level data during regular intervals in order to determine a location based on the length of the day and the time of solar noon.[4] While there are benefits and challenges with using this method of tracking, it is one of the only practical means of tracking small birds over long distances during migration.[4][5]

Passive integrated transponders (PIT) are another method of telemetry used to track the movements of a species [4] Passive integrated transponders, or "PIT tags", are electronic tags that allow researchers to collect data from a specimen without the need to recapture and handle the animal.[6] Data is captured and monitored via electronic interrogation antennae, which records the time and location of the individual.[6] Pit tags are a humane method of tracking that has little risk of infection or mortality due to the limited contact necessary to monitor the specimens. They are also cost-efficient in that they can be used repeatedly should the need arise to remove the tag from the animal.[7]

Motus wildlife tracking network is a program by Birds Canada, it was launched in 2014 in the US and Canada, by 2022 there are more than 40,000 transmitters on various animals, mostly birds, and 1,500 receiver stations have been installed in 34 countries, most receivers are concentrated in the United States and Canada.

Satellite tracking edit

Further information: GPS wildlife tracking
 
A saltwater crocodile with GPS-based satellite transmitter for migration tracking

Receivers can be placed in Earth-orbiting satellites such as ARGOS. Networks, or groups, of satellites are used to track animals. Each satellite in a network picks up electronic signals from a transmitter on an animal. Together, the signals from all satellites determine the precise location of the animal. The satellites also track the animal's path as it moves. Satellite-received transmitters fitted to animals can also provide information about the animals' physiological characteristics (e.g. temperature and habitat use.)[8][9] Satellite tracking is especially useful because the scientists do not have to follow after the animal nor do they have to recover the tag to get the data on where the animal is going or has gone. Satellite networks have tracked the migration and territorial movements of caribou, sea turtles,[10] whales, great white sharks, seals, elephants, bald eagles, ospreys and vultures.[8] Additionally Pop-up satellite archival tags are used on marine mammals and various species of fish. There are two main systems, the above-mentioned Argos and the GPS.[11] Thanks to these systems, conservationists can find the key sites for migratory species.[11] Another form of satellite tracking would be the use of acoustic telemetry. This involves the use of electronic tags that emit sound in order for the researchers to track and monitor an animal within three dimensions, which is helpful in instances when large quantities of a species are being tracked at a time.[12]

IoT Tracking edit

IoT or the internet of things proves to be a potential resource for the future of wildlife tracking and research. This technology can range from Low Power Wide Area LWPA sensor networks attached to wildlife by safe adhesive to Cameras connected to the internet using machine learning to determine what images are interesting and categorize the photos. With LWPA, the applications are endless. All that needs to be done is to develop the sensors that attach to any animal. With the sensor's low power, changing the sensors’ batteries becomes less of a problem. The program Where's The Bear is a wildlife monitoring software by the Computer Science Department at the University of California Santa Barba. They use cameras as their sensors and machine learning to quantify the photos into empty pictures triggered by wind and rain. They are instead reporting those of different species of animals. To make the training process of the algorithm rapid, they used edited photos with animals inserted in the shot of the given sensors view to sense the different animals. This training was able to make the technology more accurate with fewer false positives and false negatives. This method increased the ability to categorize animals’ photos, proving a potential new technology for vast groups of people for commercial and public use

Stable isotopes edit

 
Sea turtle eggs being laid by the mother. Unhatched eggs can be used in stable isotope analysis.

Stable isotopes are one of the intrinsic markers used for studying migration of animals.[13] One of the benefits of intrinsic markers in general, including stable isotope analysis, is that it does not require an organism to be captured and tagged and then recaptured at a later time. Each capture of an organism provides information on where it has been based on diet. The three types of intrinsic markers that can be used as tools for animal migration studies are: (1) contaminants, parasites and pathogens, (2) trace elements, and (3) stable isotopes. Certain geographic regions have specific stable isotope ratios that affect the chemistry of organisms foraging in those locations, this creates "isoscapes" that scientists can use to understand where the organism has been eating. A couple prerequisites must be met in order to use stable isotope analysis successfully: (1) the animal must have at least one light isotope of interest in specific tissues that can be sampled (this condition is almost always met since these light isotopes are building blocks of most animal tissues), and (2) the organism needs to migrate between isotopically different regions and these isotopes must be retained in the tissue in order for the differences to be measured.[13]

Stable isotope analysis has a lot of benefits and has been used in terrestrial and aquatic organisms. For example, stable isotope analysis has been confirmed to work in determining foraging locations of nesting loggerhead sea turtles.[14] Satellite telemetry was used to confirm that the location derived from the analysis were accurate to where these turtles actually traveled. This is important because it allows for greater sample sizes to be used in migration studies, since satellite telemetry is expensive and tissue, blood, and egg samples can be taken from the female turtles laying eggs.[14]

Importance edit

Electronic tags are giving scientists a complete, accurate picture of migration patterns. For example, when scientists used radio transmitters to track one herd of caribou, they learned two important things. First, they learned that the herd moves much more than previously thought. Second, they learned that each year the herd returns to about the same place to give birth. This information would have been difficult or impossible to obtain with "low tech" tags.

Tracking migrations is an important tool to better understand and protect species. For example, Florida manatees are an endangered species, and therefore they need protection. Radio tracking showed that Florida manatees may travel as far as Rhode Island when they migrate. This information suggests that the manatees may need protection along much of the Atlantic Coast of the United States. Previously, protection efforts focused mainly in the Florida area.

In the wake of the BP oil spill, efforts in tracking animals has increased in the Gulf. Most researchers who use electronic tags have only a few options: pop-up satellite tags, archival tags, or satellite tags. Historically these tags were generally expensive and could cost several thousands of dollars per tag. However, with current advancements in technology prices are now allowing researchers to tag more animals. With this increase in the number of species and individuals that can be tagged it is important to record and acknowledge the potential negative effects these devices might have.[15][16]

See also edit

References edit

  1. ^ Kingdon, Amorina (22 January 2018). "Are Scientific Tracking Tags Hurting Wild Animals?". Hakai Magazine. Retrieved 26 January 2018.
  2. ^ a b "Technology and Development at the USDA Forest Service, Satellite/GPS Telemetry for Monitoring Lesser Prairie Chickens". www.fs.fed.us. Retrieved 2017-03-02.
  3. ^ Original text (in public domain):"Internal radio transmitters have the advantage of remaining intact and functioning longer than traditional attachments. Implanted transmitters also are protected from extrinsic variables such as environmental elements and wear (Eagle et al. 1984)." (Lander et al. 2005) http://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1191&context=usdeptcommercepub (accessed 29 November 2012)
  4. ^ a b c d "Animal Migration Research, Jeff Kelly Lab". www.animalmigration.org. Retrieved 2017-03-02.
  5. ^ Stutchbury, Bridget J. M.; Tarof, Scott A.; Done, Tyler; Gow, Elizabeth; Kramer, Patrick M.; Tautin, John; Fox, James W.; Afanasyev, Vsevolod (2009-02-13). "Tracking Long-Distance Songbird Migration by Using Geolocators". Science. 323 (5916): 896. Bibcode:2009Sci...323..896S. doi:10.1126/science.1166664. ISSN 0036-8075. PMID 19213909. S2CID 34444695.
  6. ^ a b "PIT Tag Information Systems (PTAGIS) | Pacific States Marine Fisheries Commission". www.psmfc.org. Retrieved 2017-03-02.
  7. ^ "Passive Integrated Transponder (PIT) Tags in the Study of Animal Movement | Learn Science at Scitable". www.nature.com. Retrieved 2017-03-02.
  8. ^ a b Gavashelishvili, A.; McGrady, M. J. (2007). "Radio-satellite telemetry of a territorial Bearded Vulture Gypaetus barbatus in the Caucasus". Vulture News. 56: 4–13.
  9. ^ Gavashelishvili, A.; McGrady, M.; Ghasabian, M.; Bildstein, K. L. (2012). "Movements and habitat use by immature Cinereous Vultures (Aegypius monachus) from the Caucasus". Bird Study. iFirst (4): 1–14. doi:10.1080/00063657.2012.728194. S2CID 84946546.
  10. ^ SEATURTLE.ORG - Global Sea Turtle Network
  11. ^ a b Northern Bald Ibis Project
  12. ^ "Acoustic Telemetry Fisheries Research". www.htisonar.com. Retrieved 2017-03-02.
  13. ^ a b Tracking animal migration with stable isotopes. Hobson, Keith Alan, 1954-, Wassenaar, Leonard I. Amsterdam: Academic Press. 2008. ISBN 9780123738677. OCLC 228300275.{{cite book}}: CS1 maint: others (link)
  14. ^ a b Ceriani, Simona A.; Roth, James D.; Evans, Daniel R.; Weishampel, John F.; Ehrhart, Llewellyn M. (2012-09-20). "Inferring Foraging Areas of Nesting Loggerhead Turtles Using Satellite Telemetry and Stable Isotopes". PLOS ONE. 7 (9): e45335. Bibcode:2012PLoSO...745335C. doi:10.1371/journal.pone.0045335. ISSN 1932-6203. PMC 3447946. PMID 23028943.
  15. ^ Bell, S. C.; El Harouchi, M.; Hewson, C. M.; Burgess, M. D. (2017). "No short- or long-term effects of geolocator attachment detected in Pied Flycatchers Ficedula hypoleuca". Ibis. 159 (4): 734–743. doi:10.1111/ibi.12493.
  16. ^ Weiser, E. L.; et al. (2016). "Effects of geolocators on hatching success, return rates, breeding movements, and change in body mass in 16 species of Arctic-breeding shorebirds". Movement Ecology. 4 (12): 734–743. doi:10.1111/ibi.12493. PMC 4850671. PMID 27134752.

External links edit

  • "Satellite Tracking." Space Today.
  • Tomkiewicz Jr, Stanley. "Tracking animal Wild life." telonics.
  • Zanoni, Mary. "Animal ID." Klamath Basin.
  • "John James Audubon." Audubon. National Audubon Society, Inc.
  • "Satellite Tracking Migratory Birds." Western Ecological Research Center.
  • Space Today.
  • "Tracking Manatee Movement." Save The Manatee Club.
  • Journey North. Learner.
  • Radio interview Robert and Kirk Miner remember their grandfather, Jack Miner, and talk about the Jack Miner Migratory Bird Sanctuary. Originally aired February 1, 2008.

February 16, 2024
animal, migration, tracking, used, wildlife, biology, conservation, biology, ecology, wildlife, management, study, animals, behavior, wild, first, techniques, bird, banding, placing, passive, tags, birds, legs, identify, bird, future, catch, release, radio, tr. Animal migration tracking is used in wildlife biology conservation biology ecology and wildlife management to study animals behavior in the wild One of the first techniques was bird banding placing passive ID tags on birds legs to identify the bird in a future catch and release Radio tracking involves attaching a small radio transmitter to the animal and following the signal with a RDF receiver Sophisticated modern techniques use satellites to track tagged animals and GPS tags which keep a log of the animal s location With the Emergence of IoT the ability to make devices specific to the species or what is to be tracked is possible One of the many goals of animal migration research has been to determine where the animals are going however researchers also want to know why they are going there Researchers not only look at the animals migration but also what is between the migration endpoints to determine if a species is moving to new locations based on food density a change in water temperature or other stimulus and the animal s ability to adapt to these changes Migration tracking is a vital tool in efforts to control the impact of human civilization on populations of wild animals and prevent or mitigate the ongoing extinction of endangered species Radio collared wolf in Yellowstone National ParkEmployee of US Fish and Wildlife Service tracking a mountain lion tagged with a radio collar Contents 1 Technologies 2 Radio tracking 3 Satellite tracking 4 IoT Tracking 5 Stable isotopes 6 Importance 7 See also 8 References 9 External linksTechnologies edit nbsp A monarch butterfly shortly after tagging at the Cape May Bird Observatory Cape May Bird Observatory is one of the organizations that has a monarch identification tagging program Plastic stickers are placed on the wing of the insect with identification information Tracking information is used to study the migration patterns of monarchs including how far and where they fly In the fall of 1803 American Naturalist John James Audubon wondered whether migrating birds returned to the same place each year So he tied a string around the leg of a bird before it flew south The following spring Audubon saw the bird had indeed come back Scientists today still attach tags such as metal bands to track movement of animals Metal bands require the re capture of animals for the scientists to gather data the data is thus limited to the animal s release and destination points Recent technologies have helped solve this problem Some electronic tags give off repeating signals that are picked up by radio devices or satellites while other electronic tags could include archival tags or data loggers Scientists can track the locations and movement of the tagged animals without recapturing them using this RFID technology or satellites These electronic tags can provide a great deal of data Modern technologies are also smaller minimizing the negative impact of the tag on the animal 1 Radio tracking editMain article Wildlife radio telemetry nbsp The right one of these two brush tailed rock wallabies is wearing a radio tracking collar Tracking an animal by radio telemetry involves two devices Telemetry in general involves the use of a transmitter that is attached to an animal and sends out a signal in the form of radio waves just as a radio station does 2 A scientist might place the transmitter around an animal s ankle neck wing carapace or dorsal fin Alternatively they may surgically implant it as internal radio transmitters have the advantage of remaining intact and functioning longer than traditional attachments being protected from environmental variables and wear 3 The transmitter typically uses a frequency in the VHF band as antennas in this band are conveniently small To conserve battery power the transmitter usually transmits brief pulses perhaps one per second A specialized radio receiver called a radio direction finding RDF receiver picks up the signal The receiver is usually in a truck an ATV or an airplane 2 The receiver has a directional antenna usually a simple Yagi antenna which receives most strongly from a single direction and some means of indicating the strength of the received signal either by a meter or by the loudness of the pulses in earphones The antenna is rotated until the received radio signal is strongest then the antenna is pointing toward the animal To keep track of the signal the scientist follows the animal using the receiver This approach of using radio tracking can be used to track the animal manually but is also used when animals are equipped with other payloads The receiver is used to home in on the animal to get the payload back Another form of radio tracking that can be utilized especially in the case of small bird migration is the use of geolocators or geologgers 4 This technology utilizes a light sensor that tracks the light level data during regular intervals in order to determine a location based on the length of the day and the time of solar noon 4 While there are benefits and challenges with using this method of tracking it is one of the only practical means of tracking small birds over long distances during migration 4 5 Passive integrated transponders PIT are another method of telemetry used to track the movements of a species 4 Passive integrated transponders or PIT tags are electronic tags that allow researchers to collect data from a specimen without the need to recapture and handle the animal 6 Data is captured and monitored via electronic interrogation antennae which records the time and location of the individual 6 Pit tags are a humane method of tracking that has little risk of infection or mortality due to the limited contact necessary to monitor the specimens They are also cost efficient in that they can be used repeatedly should the need arise to remove the tag from the animal 7 Motus wildlife tracking network is a program by Birds Canada it was launched in 2014 in the US and Canada by 2022 there are more than 40 000 transmitters on various animals mostly birds and 1 500 receiver stations have been installed in 34 countries most receivers are concentrated in the United States and Canada Satellite tracking editFurther information GPS wildlife tracking nbsp A saltwater crocodile with GPS based satellite transmitter for migration trackingReceivers can be placed in Earth orbiting satellites such as ARGOS Networks or groups of satellites are used to track animals Each satellite in a network picks up electronic signals from a transmitter on an animal Together the signals from all satellites determine the precise location of the animal The satellites also track the animal s path as it moves Satellite received transmitters fitted to animals can also provide information about the animals physiological characteristics e g temperature and habitat use 8 9 Satellite tracking is especially useful because the scientists do not have to follow after the animal nor do they have to recover the tag to get the data on where the animal is going or has gone Satellite networks have tracked the migration and territorial movements of caribou sea turtles 10 whales great white sharks seals elephants bald eagles ospreys and vultures 8 Additionally Pop up satellite archival tags are used on marine mammals and various species of fish There are two main systems the above mentioned Argos and the GPS 11 Thanks to these systems conservationists can find the key sites for migratory species 11 Another form of satellite tracking would be the use of acoustic telemetry This involves the use of electronic tags that emit sound in order for the researchers to track and monitor an animal within three dimensions which is helpful in instances when large quantities of a species are being tracked at a time 12 IoT Tracking editIoT or the internet of things proves to be a potential resource for the future of wildlife tracking and research This technology can range from Low Power Wide Area LWPA sensor networks attached to wildlife by safe adhesive to Cameras connected to the internet using machine learning to determine what images are interesting and categorize the photos With LWPA the applications are endless All that needs to be done is to develop the sensors that attach to any animal With the sensor s low power changing the sensors batteries becomes less of a problem The program Where s The Bear is a wildlife monitoring software by the Computer Science Department at the University of California Santa Barba They use cameras as their sensors and machine learning to quantify the photos into empty pictures triggered by wind and rain They are instead reporting those of different species of animals To make the training process of the algorithm rapid they used edited photos with animals inserted in the shot of the given sensors view to sense the different animals This training was able to make the technology more accurate with fewer false positives and false negatives This method increased the ability to categorize animals photos proving a potential new technology for vast groups of people for commercial and public useStable isotopes edit nbsp Sea turtle eggs being laid by the mother Unhatched eggs can be used in stable isotope analysis Stable isotopes are one of the intrinsic markers used for studying migration of animals 13 One of the benefits of intrinsic markers in general including stable isotope analysis is that it does not require an organism to be captured and tagged and then recaptured at a later time Each capture of an organism provides information on where it has been based on diet The three types of intrinsic markers that can be used as tools for animal migration studies are 1 contaminants parasites and pathogens 2 trace elements and 3 stable isotopes Certain geographic regions have specific stable isotope ratios that affect the chemistry of organisms foraging in those locations this creates isoscapes that scientists can use to understand where the organism has been eating A couple prerequisites must be met in order to use stable isotope analysis successfully 1 the animal must have at least one light isotope of interest in specific tissues that can be sampled this condition is almost always met since these light isotopes are building blocks of most animal tissues and 2 the organism needs to migrate between isotopically different regions and these isotopes must be retained in the tissue in order for the differences to be measured 13 Stable isotope analysis has a lot of benefits and has been used in terrestrial and aquatic organisms For example stable isotope analysis has been confirmed to work in determining foraging locations of nesting loggerhead sea turtles 14 Satellite telemetry was used to confirm that the location derived from the analysis were accurate to where these turtles actually traveled This is important because it allows for greater sample sizes to be used in migration studies since satellite telemetry is expensive and tissue blood and egg samples can be taken from the female turtles laying eggs 14 Importance editElectronic tags are giving scientists a complete accurate picture of migration patterns For example when scientists used radio transmitters to track one herd of caribou they learned two important things First they learned that the herd moves much more than previously thought Second they learned that each year the herd returns to about the same place to give birth This information would have been difficult or impossible to obtain with low tech tags Tracking migrations is an important tool to better understand and protect species For example Florida manatees are an endangered species and therefore they need protection Radio tracking showed that Florida manatees may travel as far as Rhode Island when they migrate This information suggests that the manatees may need protection along much of the Atlantic Coast of the United States Previously protection efforts focused mainly in the Florida area In the wake of the BP oil spill efforts in tracking animals has increased in the Gulf Most researchers who use electronic tags have only a few options pop up satellite tags archival tags or satellite tags Historically these tags were generally expensive and could cost several thousands of dollars per tag However with current advancements in technology prices are now allowing researchers to tag more animals With this increase in the number of species and individuals that can be tagged it is important to record and acknowledge the potential negative effects these devices might have 15 16 See also editAcoustic tag Bird ringing Data storage tag History of wildlife tracking technology Light level geolocator GIS and aquatic science Pop up satellite archival tag Tracking collar Coded wire tag Motus wildlife tracking network References edit Kingdon Amorina 22 January 2018 Are Scientific Tracking Tags Hurting Wild Animals Hakai Magazine Retrieved 26 January 2018 a b Technology and Development at the USDA Forest Service Satellite GPS Telemetry for Monitoring Lesser Prairie Chickens www fs fed us Retrieved 2017 03 02 Original text in public domain Internal radio transmitters have the advantage of remaining intact and functioning longer than traditional attachments Implanted transmitters also are protected from extrinsic variables such as environmental elements and wear Eagle et al 1984 Lander et al 2005 http digitalcommons unl edu cgi viewcontent cgi article 1191 amp context usdeptcommercepub accessed 29 November 2012 a b c d Animal Migration Research Jeff Kelly Lab www animalmigration org Retrieved 2017 03 02 Stutchbury Bridget J M Tarof Scott A Done Tyler Gow Elizabeth Kramer Patrick M Tautin John Fox James W Afanasyev Vsevolod 2009 02 13 Tracking Long Distance Songbird Migration by Using Geolocators Science 323 5916 896 Bibcode 2009Sci 323 896S doi 10 1126 science 1166664 ISSN 0036 8075 PMID 19213909 S2CID 34444695 a b PIT Tag Information Systems PTAGIS Pacific States Marine Fisheries Commission www psmfc org Retrieved 2017 03 02 Passive Integrated Transponder PIT Tags in the Study of Animal Movement Learn Science at Scitable www nature com Retrieved 2017 03 02 a b Gavashelishvili A McGrady M J 2007 Radio satellite telemetry of a territorial Bearded Vulture Gypaetus barbatus in the Caucasus Vulture News 56 4 13 Gavashelishvili A McGrady M Ghasabian M Bildstein K L 2012 Movements and habitat use by immature Cinereous Vultures Aegypius monachus from the Caucasus Bird Study iFirst 4 1 14 doi 10 1080 00063657 2012 728194 S2CID 84946546 SEATURTLE ORG Global Sea Turtle Network a b Northern Bald Ibis Project Acoustic Telemetry Fisheries Research www htisonar com Retrieved 2017 03 02 a b Tracking animal migration with stable isotopes Hobson Keith Alan 1954 Wassenaar Leonard I Amsterdam Academic Press 2008 ISBN 9780123738677 OCLC 228300275 a href Template Cite book html title Template Cite book cite book a CS1 maint others link a b Ceriani Simona A Roth James D Evans Daniel R Weishampel John F Ehrhart Llewellyn M 2012 09 20 Inferring Foraging Areas of Nesting Loggerhead Turtles Using Satellite Telemetry and Stable Isotopes PLOS ONE 7 9 e45335 Bibcode 2012PLoSO 745335C doi 10 1371 journal pone 0045335 ISSN 1932 6203 PMC 3447946 PMID 23028943 Bell S C El Harouchi M Hewson C M Burgess M D 2017 No short or long term effects of geolocator attachment detected in Pied Flycatchers Ficedula hypoleuca Ibis 159 4 734 743 doi 10 1111 ibi 12493 Weiser E L et al 2016 Effects of geolocators on hatching success return rates breeding movements and change in body mass in 16 species of Arctic breeding shorebirds Movement Ecology 4 12 734 743 doi 10 1111 ibi 12493 PMC 4850671 PMID 27134752 External links edit Satellite Tracking Space Today Tomkiewicz Jr Stanley Tracking animal Wild life telonics Zanoni Mary Animal ID Klamath Basin John James Audubon Audubon National Audubon Society Inc Satellite Tracking Migratory Birds Western Ecological Research Center Satellite Tracking Threatened Manatees Space Today Tracking Manatee Movement Save The Manatee Club Manatee Migration Updates Journey North Learner Radio interview Robert and Kirk Miner remember their grandfather Jack Miner and talk about the Jack Miner Migratory Bird Sanctuary Originally aired February 1 2008 Retrieved from https en wikipedia org w index php title Animal migration tracking amp oldid 1188287966, wikipedia, wiki, book, books, library,

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