The long shadow of woody encroachment: An integrated approach to modeling grassland songbird habitat

Animals must track resources over relatively fine spatial and temporal scales, particularly in disturbance‐mediated systems like grasslands. Grassland birds respond to habitat heterogeneity by dispersing among sites within and between years, yet we know little about how they make post‐dispersal sett...

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Veröffentlicht in:	Ecological applications 2024-04, Vol.34 (3), p.e2954-n/a
Hauptverfasser:	Silber, Katy M., Hefley, Trevor J., Castro‐Miller, Henry N., Ratajczak, Zak, Boyle, W. Alice
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Sprache:	eng
Schlagworte:	Ammodramus savannarum Animal behavior Animals Birds Conservation Conservation of Natural Resources - methods Decisions Dispersal Dynamical systems Ecosystem Encroachment grasshoppers Grassland grassland birds Grasslands Great Plains Habitats Heterogeneity Humans Integrated approach Kansas Landscape preservation Misalignment Passeriformes Plant cover shrubs Songbirds space and time Spiza americana tallgrass prairie territoriality topography Trees Vegetation Vegetation cover Woody plants
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creator	Silber, Katy M. Hefley, Trevor J. Castro‐Miller, Henry N. Ratajczak, Zak Boyle, W. Alice
description	Animals must track resources over relatively fine spatial and temporal scales, particularly in disturbance‐mediated systems like grasslands. Grassland birds respond to habitat heterogeneity by dispersing among sites within and between years, yet we know little about how they make post‐dispersal settlement decisions. Many methods exist to quantify the resource selection of mobile taxa, but the habitat data used in these models are frequently not collected at the same location or time that individuals were present. This spatiotemporal misalignment may lead to incorrect interpretations and adverse conservation outcomes, particularly in dynamic systems. To investigate the extent to which spatially and temporally dynamic vegetation conditions and topography drive grassland bird settlement decisions, we integrated multiple data sources from our study site to predict slope, vegetation height, and multiple metrics of vegetation cover at any point in space and time within the temporal and spatial scope of our study. We paired these predictions with avian mark‐resight data for 8 years at the Konza Prairie Biological Station in NE Kansas to evaluate territory selection for Grasshopper Sparrows (Ammodramus savannarum), Dickcissels (Spiza americana), and Eastern Meadowlarks (Sturnella magna). Each species selected different types and amounts of herbaceous vegetation cover, but all three species preferred relatively flat areas with less than 6% shrub cover and less than 1% tree cover. We evaluated several scenarios of woody vegetation removal and found that, with a targeted approach, the simulated removal of just one isolated tree in the uplands created up to 14 ha of grassland bird habitat. This study supports growing evidence that small amounts of woody encroachment can fragment landscapes, augmenting conservation threats to grassland systems. Conversely, these results demonstrate that drastic increases in bird habitat area could be achieved through relatively efficient management interventions. The results and approaches reported pave the way for more efficient conservation efforts in grasslands and other systems through spatiotemporal alignment of habitat with animal behaviors and simulated impacts of management interventions.
doi_str_mv	10.1002/eap.2954
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To investigate the extent to which spatially and temporally dynamic vegetation conditions and topography drive grassland bird settlement decisions, we integrated multiple data sources from our study site to predict slope, vegetation height, and multiple metrics of vegetation cover at any point in space and time within the temporal and spatial scope of our study. We paired these predictions with avian mark‐resight data for 8 years at the Konza Prairie Biological Station in NE Kansas to evaluate territory selection for Grasshopper Sparrows (Ammodramus savannarum), Dickcissels (Spiza americana), and Eastern Meadowlarks (Sturnella magna). Each species selected different types and amounts of herbaceous vegetation cover, but all three species preferred relatively flat areas with less than 6% shrub cover and less than 1% tree cover. We evaluated several scenarios of woody vegetation removal and found that, with a targeted approach, the simulated removal of just one isolated tree in the uplands created up to 14 ha of grassland bird habitat. This study supports growing evidence that small amounts of woody encroachment can fragment landscapes, augmenting conservation threats to grassland systems. Conversely, these results demonstrate that drastic increases in bird habitat area could be achieved through relatively efficient management interventions. 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Alice</creatorcontrib><title>The long shadow of woody encroachment: An integrated approach to modeling grassland songbird habitat</title><title>Ecological applications</title><addtitle>Ecol Appl</addtitle><description>Animals must track resources over relatively fine spatial and temporal scales, particularly in disturbance‐mediated systems like grasslands. Grassland birds respond to habitat heterogeneity by dispersing among sites within and between years, yet we know little about how they make post‐dispersal settlement decisions. Many methods exist to quantify the resource selection of mobile taxa, but the habitat data used in these models are frequently not collected at the same location or time that individuals were present. This spatiotemporal misalignment may lead to incorrect interpretations and adverse conservation outcomes, particularly in dynamic systems. To investigate the extent to which spatially and temporally dynamic vegetation conditions and topography drive grassland bird settlement decisions, we integrated multiple data sources from our study site to predict slope, vegetation height, and multiple metrics of vegetation cover at any point in space and time within the temporal and spatial scope of our study. We paired these predictions with avian mark‐resight data for 8 years at the Konza Prairie Biological Station in NE Kansas to evaluate territory selection for Grasshopper Sparrows (Ammodramus savannarum), Dickcissels (Spiza americana), and Eastern Meadowlarks (Sturnella magna). Each species selected different types and amounts of herbaceous vegetation cover, but all three species preferred relatively flat areas with less than 6% shrub cover and less than 1% tree cover. We evaluated several scenarios of woody vegetation removal and found that, with a targeted approach, the simulated removal of just one isolated tree in the uplands created up to 14 ha of grassland bird habitat. This study supports growing evidence that small amounts of woody encroachment can fragment landscapes, augmenting conservation threats to grassland systems. Conversely, these results demonstrate that drastic increases in bird habitat area could be achieved through relatively efficient management interventions. 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Alice</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The long shadow of woody encroachment: An integrated approach to modeling grassland songbird habitat</atitle><jtitle>Ecological applications</jtitle><addtitle>Ecol Appl</addtitle><date>2024-04</date><risdate>2024</risdate><volume>34</volume><issue>3</issue><spage>e2954</spage><epage>n/a</epage><pages>e2954-n/a</pages><issn>1051-0761</issn><eissn>1939-5582</eissn><abstract>Animals must track resources over relatively fine spatial and temporal scales, particularly in disturbance‐mediated systems like grasslands. Grassland birds respond to habitat heterogeneity by dispersing among sites within and between years, yet we know little about how they make post‐dispersal settlement decisions. Many methods exist to quantify the resource selection of mobile taxa, but the habitat data used in these models are frequently not collected at the same location or time that individuals were present. This spatiotemporal misalignment may lead to incorrect interpretations and adverse conservation outcomes, particularly in dynamic systems. To investigate the extent to which spatially and temporally dynamic vegetation conditions and topography drive grassland bird settlement decisions, we integrated multiple data sources from our study site to predict slope, vegetation height, and multiple metrics of vegetation cover at any point in space and time within the temporal and spatial scope of our study. We paired these predictions with avian mark‐resight data for 8 years at the Konza Prairie Biological Station in NE Kansas to evaluate territory selection for Grasshopper Sparrows (Ammodramus savannarum), Dickcissels (Spiza americana), and Eastern Meadowlarks (Sturnella magna). Each species selected different types and amounts of herbaceous vegetation cover, but all three species preferred relatively flat areas with less than 6% shrub cover and less than 1% tree cover. We evaluated several scenarios of woody vegetation removal and found that, with a targeted approach, the simulated removal of just one isolated tree in the uplands created up to 14 ha of grassland bird habitat. This study supports growing evidence that small amounts of woody encroachment can fragment landscapes, augmenting conservation threats to grassland systems. Conversely, these results demonstrate that drastic increases in bird habitat area could be achieved through relatively efficient management interventions. The results and approaches reported pave the way for more efficient conservation efforts in grasslands and other systems through spatiotemporal alignment of habitat with animal behaviors and simulated impacts of management interventions.</abstract><cop>Hoboken, USA</cop><pub>John Wiley & Sons, Inc</pub><pmid>38379458</pmid><doi>10.1002/eap.2954</doi><tpages>16</tpages><orcidid>https://orcid.org/0000-0002-4675-5738</orcidid><orcidid>https://orcid.org/0000-0002-2880-142X</orcidid><orcidid>https://orcid.org/0000-0002-5850-328X</orcidid><orcidid>https://orcid.org/0000-0002-2808-6024</orcidid></addata></record>
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subjects	Ammodramus savannarum Animal behavior Animals Birds Conservation Conservation of Natural Resources - methods Decisions Dispersal Dynamical systems Ecosystem Encroachment grasshoppers Grassland grassland birds Grasslands Great Plains Habitats Heterogeneity Humans Integrated approach Kansas Landscape preservation Misalignment Passeriformes Plant cover shrubs Songbirds space and time Spiza americana tallgrass prairie territoriality topography Trees Vegetation Vegetation cover Woody plants
title	The long shadow of woody encroachment: An integrated approach to modeling grassland songbird habitat
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