Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake

Animal distribution is usually predicted from the spatial variation in food biomass, whereas foraging theory commonly uses net energy intake rate as the currency to be maximized. We tested whether net energy intake rate better predicted the distribution and abundance of tundra swans than food biomas...

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Published in:Wetlands
Main Authors: Gyimesi, A., Varghese, S., De Leeuw, J., Nolet, B.A.
Format: Article in Journal/Newspaper
Language:English
Published: 2012
Subjects:
national
Tundra
Online Access:https://pure.knaw.nl/portal/en/publications/9843f684-e22d-4317-8784-c6057a607c28
https://doi.org/10.1007/s13157-011-0256-6
https://hdl.handle.net/20.500.11755/9843f684-e22d-4317-8784-c6057a607c28
id ftknawnlpublic:oai:pure.knaw.nl:publications/9843f684-e22d-4317-8784-c6057a607c28
record_format openpolar
spelling ftknawnlpublic:oai:pure.knaw.nl:publications/9843f684-e22d-4317-8784-c6057a607c28 2024-09-15T18:39:40+00:00 Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake Gyimesi, A. Varghese, S. De Leeuw, J. Nolet, B.A. 2012 https://pure.knaw.nl/portal/en/publications/9843f684-e22d-4317-8784-c6057a607c28 https://doi.org/10.1007/s13157-011-0256-6 https://hdl.handle.net/20.500.11755/9843f684-e22d-4317-8784-c6057a607c28 eng eng https://pure.knaw.nl/portal/en/publications/9843f684-e22d-4317-8784-c6057a607c28 info:eu-repo/semantics/closedAccess Gyimesi , A , Varghese , S , De Leeuw , J & Nolet , B A 2012 , ' Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake ' , Wetlands , vol. 32 , no. 1 , pp. 119-127 . https://doi.org/10.1007/s13157-011-0256-6 national article 2012 ftknawnlpublic https://doi.org/10.1007/s13157-011-0256-620.500.11755/9843f684-e22d-4317-8784-c6057a607c28 2024-07-22T23:43:54Z Animal distribution is usually predicted from the spatial variation in food biomass, whereas foraging theory commonly uses net energy intake rate as the currency to be maximized. We tested whether net energy intake rate better predicted the distribution and abundance of tundra swans than food biomass. In a shallow lake, we mapped the density of sago pondweed tubers during 2 years, and calculated the foraging benefits and costs to tundra swans. Swan residence was expressed in bird-days, i.e. the sum of daily counts. We used four measures of increasing complexity to predict bird-days per inlet: total food biomass (B), total food biomass above giving-up density (B+), total accessible food biomass above giving-up density (aB+), and total achievable net energy intake rate above giving-up energy intake rate (NEI+). Considering both years, observed bird-days of inlets correlated only with NEI+, and not with B, B+, or aB+. In both years, our predictions of bird-days based on the NEI+model better matched observed relationships than the predictions of the other three models. Our case study suggests that in heterogeneous wetlands, correcting for givingup density, food accessibility and foraging costs may be necessary in order to predict bird distribution and abundance. Animal distribution is usually predicted from the spatial variation in food biomass, whereas foraging theory commonly uses net energy intake rate as the currency to be maximized. We tested whether net energy intake rate better predicted the distribution and abundance of tundra swans than food biomass. In a shallow lake, we mapped the density of sago pondweed tubers during 2 years, and calculated the foraging benefits and costs to tundra swans. Swan residence was expressed in bird-days, i.e. the sum of daily counts. We used four measures of increasing complexity to predict bird-days per inlet: total food biomass (B), total food biomass above giving-up density (B+), total accessible food biomass above giving-up density (aB+), and total achievable net energy ... Article in Journal/Newspaper Tundra Royal Netherlands Academy of Arts and Sciences Research Portal (KNAW) Wetlands 32 1 119 127
institution Open Polar
collection Royal Netherlands Academy of Arts and Sciences Research Portal (KNAW)
op_collection_id ftknawnlpublic
language English
topic national
spellingShingle national
Gyimesi, A.
Varghese, S.
De Leeuw, J.
Nolet, B.A.
Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake
topic_facet national
description Animal distribution is usually predicted from the spatial variation in food biomass, whereas foraging theory commonly uses net energy intake rate as the currency to be maximized. We tested whether net energy intake rate better predicted the distribution and abundance of tundra swans than food biomass. In a shallow lake, we mapped the density of sago pondweed tubers during 2 years, and calculated the foraging benefits and costs to tundra swans. Swan residence was expressed in bird-days, i.e. the sum of daily counts. We used four measures of increasing complexity to predict bird-days per inlet: total food biomass (B), total food biomass above giving-up density (B+), total accessible food biomass above giving-up density (aB+), and total achievable net energy intake rate above giving-up energy intake rate (NEI+). Considering both years, observed bird-days of inlets correlated only with NEI+, and not with B, B+, or aB+. In both years, our predictions of bird-days based on the NEI+model better matched observed relationships than the predictions of the other three models. Our case study suggests that in heterogeneous wetlands, correcting for givingup density, food accessibility and foraging costs may be necessary in order to predict bird distribution and abundance. Animal distribution is usually predicted from the spatial variation in food biomass, whereas foraging theory commonly uses net energy intake rate as the currency to be maximized. We tested whether net energy intake rate better predicted the distribution and abundance of tundra swans than food biomass. In a shallow lake, we mapped the density of sago pondweed tubers during 2 years, and calculated the foraging benefits and costs to tundra swans. Swan residence was expressed in bird-days, i.e. the sum of daily counts. We used four measures of increasing complexity to predict bird-days per inlet: total food biomass (B), total food biomass above giving-up density (B+), total accessible food biomass above giving-up density (aB+), and total achievable net energy ...
format Article in Journal/Newspaper
author Gyimesi, A.
Varghese, S.
De Leeuw, J.
Nolet, B.A.
author_facet Gyimesi, A.
Varghese, S.
De Leeuw, J.
Nolet, B.A.
author_sort Gyimesi, A.
title Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake
title_short Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake
title_full Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake
title_fullStr Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake
title_full_unstemmed Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake
title_sort net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake
publishDate 2012
url https://pure.knaw.nl/portal/en/publications/9843f684-e22d-4317-8784-c6057a607c28
https://doi.org/10.1007/s13157-011-0256-6
https://hdl.handle.net/20.500.11755/9843f684-e22d-4317-8784-c6057a607c28
genre Tundra
genre_facet Tundra
op_source Gyimesi , A , Varghese , S , De Leeuw , J & Nolet , B A 2012 , ' Net energy intake rate as a common currency to explain swan spatial distribution in a shallow lake ' , Wetlands , vol. 32 , no. 1 , pp. 119-127 . https://doi.org/10.1007/s13157-011-0256-6
op_relation https://pure.knaw.nl/portal/en/publications/9843f684-e22d-4317-8784-c6057a607c28
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.1007/s13157-011-0256-620.500.11755/9843f684-e22d-4317-8784-c6057a607c28
container_title Wetlands
container_volume 32
container_issue 1
container_start_page 119
op_container_end_page 127
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