Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking

Sensors, such as accelerometers, in tracking devices allow for detailed bio-logging to understand animal behaviour, even in remote places where direct observation is difficult. To study breeding in birds remotely, one needs to understand how to recognise a breeding event from tracking data, and idea...

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Published in:	Animal Biotelemetry
Main Authors:	Schreven, Kees H.T., Stolz, Christian, Madsen, Jesper, Nolet, Bart A.
Format:	Article in Journal/Newspaper
Language:	English
Published:	2021
Subjects:	Anser brachyrhynchus Brood Incubation Nesting duration ODBA Parental care Recess Arctic Svalbard
Online Access:	https://pure.au.dk/portal/da/publications/nesting-attempts-and-success-of-arcticbreeding-geese-can-be-derived-with-high-precision-from-accelerometry-and-gpstracking(0a3f0f56-59d2-47b3-b67d-fe2804103294).html https://doi.org/10.1186/s40317-021-00249-9 http://www.scopus.com/inward/record.url?scp=85110313300&partnerID=8YFLogxK

id	ftuniaarhuspubl:oai:pure.atira.dk:publications/0a3f0f56-59d2-47b3-b67d-fe2804103294
record_format	openpolar
spelling	ftuniaarhuspubl:oai:pure.atira.dk:publications/0a3f0f56-59d2-47b3-b67d-fe2804103294 2023-05-15T13:29:57+02:00 Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking Schreven, Kees H.T. Stolz, Christian Madsen, Jesper Nolet, Bart A. 2021-12 https://pure.au.dk/portal/da/publications/nesting-attempts-and-success-of-arcticbreeding-geese-can-be-derived-with-high-precision-from-accelerometry-and-gpstracking(0a3f0f56-59d2-47b3-b67d-fe2804103294).html https://doi.org/10.1186/s40317-021-00249-9 http://www.scopus.com/inward/record.url?scp=85110313300&partnerID=8YFLogxK eng eng info:eu-repo/semantics/openAccess Schreven , K H T , Stolz , C , Madsen , J & Nolet , B A 2021 , ' Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking ' , Animal Biotelemetry , vol. 9 , no. 1 , 25 . https://doi.org/10.1186/s40317-021-00249-9 Anser brachyrhynchus Brood Incubation Nesting duration ODBA Parental care Recess article 2021 ftuniaarhuspubl https://doi.org/10.1186/s40317-021-00249-9 2021-08-04T22:45:46Z Sensors, such as accelerometers, in tracking devices allow for detailed bio-logging to understand animal behaviour, even in remote places where direct observation is difficult. To study breeding in birds remotely, one needs to understand how to recognise a breeding event from tracking data, and ideally validate this by direct observation. We tagged 49 adult female pink-footed geese (Anser brachyrhynchus) with transmitter neckbands in Finland in spring of 2018 and 2019, and in Svalbard in summer 2018, and validated inferences from tracking by field observations of nesting sites and family status in 2018–2020 (54 spring–summer tracks). We estimated nesting locations by taking the median coordinates of GPS-fixes at which the goose was motionless (overall dynamic body acceleration, ODBA < 1) on days with a daily median ODBA < 1, which approached the real nesting locations closely (within 1.6–3.7 m, n = 6). The start of nesting was defined as the first day on which the goose spent > 75% of time within 50 m of the nest, because nest site attendances steeply increased within one day to above this threshold. Nesting duration (number of consecutive days with > 75% nest site attendance) ranged between 3 and 44 days (n = 28), but was 30–34 days in confirmed successful nests (n = 9). The prolonged nesting of 39–44 days (n = 3) suggested incubation on unhatchable egg(s). Nest losses before hatching time occurred mostly in day 3–10 and 23–29 of nesting, periods with an increased frequency of nest site recesses. As alternative method, allowing for non-simultaneous GPS and accelerometer data, we show that nesting days were classified with 98.6% success by two general characteristics of breeding: low body motion (daily median ODBA) and low geographic mobility (daily SD of latitude). Median coordinates on nesting days approached real nest sites closely (within 0.8–3.6 m, n = 6). When considering only geographic mobility (allowing for GPS data only) nesting locations were similarly accurate, but some short nesting attempts were undetected and non-breeding tracks misclassified. We show that nesting attempts, as short as 3 days, and nesting success can be detected remotely with good precision using GPS-tracking and accelerometry. Our method may be generalised to other (precocial) bird species with similar incubation behaviour. Article in Journal/Newspaper Anser brachyrhynchus Arctic Arctic Svalbard Aarhus University: Research Arctic Recess ENVELOPE(-61.516,-61.516,-64.500,-64.500) Svalbard Animal Biotelemetry 9 1
institution	Open Polar
collection	Aarhus University: Research
op_collection_id	ftuniaarhuspubl
language	English
topic	Anser brachyrhynchus Brood Incubation Nesting duration ODBA Parental care Recess
spellingShingle	Anser brachyrhynchus Brood Incubation Nesting duration ODBA Parental care Recess Schreven, Kees H.T. Stolz, Christian Madsen, Jesper Nolet, Bart A. Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking
topic_facet	Anser brachyrhynchus Brood Incubation Nesting duration ODBA Parental care Recess
description	Sensors, such as accelerometers, in tracking devices allow for detailed bio-logging to understand animal behaviour, even in remote places where direct observation is difficult. To study breeding in birds remotely, one needs to understand how to recognise a breeding event from tracking data, and ideally validate this by direct observation. We tagged 49 adult female pink-footed geese (Anser brachyrhynchus) with transmitter neckbands in Finland in spring of 2018 and 2019, and in Svalbard in summer 2018, and validated inferences from tracking by field observations of nesting sites and family status in 2018–2020 (54 spring–summer tracks). We estimated nesting locations by taking the median coordinates of GPS-fixes at which the goose was motionless (overall dynamic body acceleration, ODBA < 1) on days with a daily median ODBA < 1, which approached the real nesting locations closely (within 1.6–3.7 m, n = 6). The start of nesting was defined as the first day on which the goose spent > 75% of time within 50 m of the nest, because nest site attendances steeply increased within one day to above this threshold. Nesting duration (number of consecutive days with > 75% nest site attendance) ranged between 3 and 44 days (n = 28), but was 30–34 days in confirmed successful nests (n = 9). The prolonged nesting of 39–44 days (n = 3) suggested incubation on unhatchable egg(s). Nest losses before hatching time occurred mostly in day 3–10 and 23–29 of nesting, periods with an increased frequency of nest site recesses. As alternative method, allowing for non-simultaneous GPS and accelerometer data, we show that nesting days were classified with 98.6% success by two general characteristics of breeding: low body motion (daily median ODBA) and low geographic mobility (daily SD of latitude). Median coordinates on nesting days approached real nest sites closely (within 0.8–3.6 m, n = 6). When considering only geographic mobility (allowing for GPS data only) nesting locations were similarly accurate, but some short nesting attempts were undetected and non-breeding tracks misclassified. We show that nesting attempts, as short as 3 days, and nesting success can be detected remotely with good precision using GPS-tracking and accelerometry. Our method may be generalised to other (precocial) bird species with similar incubation behaviour.
format	Article in Journal/Newspaper
author	Schreven, Kees H.T. Stolz, Christian Madsen, Jesper Nolet, Bart A.
author_facet	Schreven, Kees H.T. Stolz, Christian Madsen, Jesper Nolet, Bart A.
author_sort	Schreven, Kees H.T.
title	Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking
title_short	Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking
title_full	Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking
title_fullStr	Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking
title_full_unstemmed	Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking
title_sort	nesting attempts and success of arctic-breeding geese can be derived with high precision from accelerometry and gps-tracking
publishDate	2021
url	https://pure.au.dk/portal/da/publications/nesting-attempts-and-success-of-arcticbreeding-geese-can-be-derived-with-high-precision-from-accelerometry-and-gpstracking(0a3f0f56-59d2-47b3-b67d-fe2804103294).html https://doi.org/10.1186/s40317-021-00249-9 http://www.scopus.com/inward/record.url?scp=85110313300&partnerID=8YFLogxK
long_lat	ENVELOPE(-61.516,-61.516,-64.500,-64.500)
geographic	Arctic Recess Svalbard
geographic_facet	Arctic Recess Svalbard
genre	Anser brachyrhynchus Arctic Arctic Svalbard
genre_facet	Anser brachyrhynchus Arctic Arctic Svalbard
op_source	Schreven , K H T , Stolz , C , Madsen , J & Nolet , B A 2021 , ' Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking ' , Animal Biotelemetry , vol. 9 , no. 1 , 25 . https://doi.org/10.1186/s40317-021-00249-9
op_rights	info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.1186/s40317-021-00249-9
container_title	Animal Biotelemetry
container_volume	9
container_issue	1
_version_	1766004423045152768

Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking

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