Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture

Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture

Globally and in Canada's boreal forest, extensive deforestation has occurred because of agricultural conversion. However, consequences of forest loss for bird assemblages associated with wetlands and their associated riparian areas and shoreline forests are poorly understood. Using the multivar...

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Main Authors: Julienne L. Morissette, Erin M. Bayne, Kevin J. Kardynal, Keith A. Hobson
Format: Article
Language:English
Published: Resilience Alliance 2019-06-01
Series:Avian Conservation and Ecology
Subjects:
agriculture
biotic homogenization
boreal bird
community change
forest conversion
fragmentation
Online Access:http://www.ace-eco.org/vol14/iss1/art12/
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spelling doaj-e641defe7c204f94be44d55e44c24fe52020-11-25T02:32:26ZengResilience AllianceAvian Conservation and Ecology1712-65682019-06-01141121355Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agricultureJulienne L. Morissette0Erin M. Bayne1Kevin J. Kardynal2Keith A. Hobson3Department of Biological Sciences, University of Alberta, Edmonton, AB, CanadaDepartment of Biological Sciences, University of Alberta, Edmonton, AB, CanadaEnvironment & Climate Change Canada, Science and Technology BranchEnvironment & Climate Change Canada, Science and Technology BranchGlobally and in Canada's boreal forest, extensive deforestation has occurred because of agricultural conversion. However, consequences of forest loss for bird assemblages associated with wetlands and their associated riparian areas and shoreline forests are poorly understood. Using the multivariate approach, Threshold Indicator Taxa Analysis (TITAN), we assessed the response of bird communities to an agricultural conversion gradient at two spatial scales: (1) locally within 500 m of a wetland, and (2) throughout a 5 × 5 km landscape. We compared results from a study area in Manitoba surrounded by agriculture (DMMB) to those from a landscape where agriculture is encroaching from the southern edge in east-central Alberta (ECAB). Both species-level and community-level changes tended to occur at lower levels of agricultural conversion in DMMB than in ECAB, particularly at the landscape scale. Community-level changes were more gradual and reached a single maximum at the wetland scale, whereas there were two to three distinct community-level change-points at the landscape scale. Species responding positively (15 in ECAB and 18 in DMMB) to agricultural conversion were typical of open-country ecoregions, while species that responded negatively (13 in each of ECAB and DMMB) tended to be those for which loss of forest cover represented direct loss of habitat. For species common to both regions, direction of response (+ or -) was typically consistent, but specific change-points differed. Where conversion of forest to agriculture is unavoidable in boreal forests, limiting the total amount of forest and wetland vegetation loss around wetlands and within the landscape matrix to ⤠30%, along with wetland preservation, will have the greatest benefit to conserving bird communities typical of boreal wetlands and their adjacent riparian areas and forests.http://www.ace-eco.org/vol14/iss1/art12/agriculturebiotic homogenizationboreal birdcommunity changeforest conversionfragmentation
collection DOAJ
language English
format Article
sources DOAJ
author Julienne L. Morissette
Erin M. Bayne
Kevin J. Kardynal
Keith A. Hobson
spellingShingle Julienne L. Morissette
Erin M. Bayne
Kevin J. Kardynal
Keith A. Hobson
Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture
Avian Conservation and Ecology
agriculture
biotic homogenization
boreal bird
community change
forest conversion
fragmentation
author_facet Julienne L. Morissette
Erin M. Bayne
Kevin J. Kardynal
Keith A. Hobson
author_sort Julienne L. Morissette
title Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture
title_short Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture
title_full Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture
title_fullStr Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture
title_full_unstemmed Regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture
title_sort regional variation in responses of wetland-associated bird communities to conversion of boreal forest to agriculture
publisher Resilience Alliance
series Avian Conservation and Ecology
issn 1712-6568
publishDate 2019-06-01
description Globally and in Canada's boreal forest, extensive deforestation has occurred because of agricultural conversion. However, consequences of forest loss for bird assemblages associated with wetlands and their associated riparian areas and shoreline forests are poorly understood. Using the multivariate approach, Threshold Indicator Taxa Analysis (TITAN), we assessed the response of bird communities to an agricultural conversion gradient at two spatial scales: (1) locally within 500 m of a wetland, and (2) throughout a 5 × 5 km landscape. We compared results from a study area in Manitoba surrounded by agriculture (DMMB) to those from a landscape where agriculture is encroaching from the southern edge in east-central Alberta (ECAB). Both species-level and community-level changes tended to occur at lower levels of agricultural conversion in DMMB than in ECAB, particularly at the landscape scale. Community-level changes were more gradual and reached a single maximum at the wetland scale, whereas there were two to three distinct community-level change-points at the landscape scale. Species responding positively (15 in ECAB and 18 in DMMB) to agricultural conversion were typical of open-country ecoregions, while species that responded negatively (13 in each of ECAB and DMMB) tended to be those for which loss of forest cover represented direct loss of habitat. For species common to both regions, direction of response (+ or -) was typically consistent, but specific change-points differed. Where conversion of forest to agriculture is unavoidable in boreal forests, limiting the total amount of forest and wetland vegetation loss around wetlands and within the landscape matrix to ⤠30%, along with wetland preservation, will have the greatest benefit to conserving bird communities typical of boreal wetlands and their adjacent riparian areas and forests.
topic agriculture
biotic homogenization
boreal bird
community change
forest conversion
fragmentation
url http://www.ace-eco.org/vol14/iss1/art12/
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AT kevinjkardynal regionalvariationinresponsesofwetlandassociatedbirdcommunitiestoconversionofborealforesttoagriculture
AT keithahobson regionalvariationinresponsesofwetlandassociatedbirdcommunitiestoconversionofborealforesttoagriculture
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