Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams

Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams. Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Rachel A Harrington [verfasserIn] N LeRoy Poff Boris C Kondratieff

Format:	Artikel
Sprache:	Englisch

Erschienen:	2016

Übergeordnetes Werk:	Enthalten in: Freshwater biology - Oxford : Wiley-Blackwell, 1971, 61(2016), 2, Seite 195
Übergeordnetes Werk:	volume:61 ; year:2016 ; number:2 ; pages:195

Links:	Volltext Link aufrufen

DOI / URN:	10.1111/fwb.12693

Katalog-ID:	OLC1971839728

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520			\|a Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams.
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allfields	10.1111/fwb.12693 doi PQ20160430 (DE-627)OLC1971839728 (DE-599)GBVOLC1971839728 (PRQ)p642-ef1bdfc12ec55806fbc4720dde4d421a5923005fe0ab703238cd413749e2f830 (KEY)0056936420160000061000200195aquaticinsectbetadiversityisnotdependentonelevatio DE-627 ger DE-627 rakwb eng 570 DNB BIODIV fid 42.00 bkl Rachel A Harrington verfasserin aut Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams. N LeRoy Poff oth Boris C Kondratieff oth Enthalten in Freshwater biology Oxford : Wiley-Blackwell, 1971 61(2016), 2, Seite 195 (DE-627)129295906 (DE-600)121180-8 (DE-576)014489139 0046-5070 nnns volume:61 year:2016 number:2 pages:195 http://dx.doi.org/10.1111/fwb.12693 Volltext http://search.proquest.com/docview/1753633819 GBV_USEFLAG_A SYSFLAG_A GBV_OLC FID-BIODIV SSG-OLC-UMW SSG-OLC-TEC SSG-OLC-PHA SSG-OLC-DE-84 42.00 AVZ AR 61 2016 2 195
spelling	10.1111/fwb.12693 doi PQ20160430 (DE-627)OLC1971839728 (DE-599)GBVOLC1971839728 (PRQ)p642-ef1bdfc12ec55806fbc4720dde4d421a5923005fe0ab703238cd413749e2f830 (KEY)0056936420160000061000200195aquaticinsectbetadiversityisnotdependentonelevatio DE-627 ger DE-627 rakwb eng 570 DNB BIODIV fid 42.00 bkl Rachel A Harrington verfasserin aut Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams. N LeRoy Poff oth Boris C Kondratieff oth Enthalten in Freshwater biology Oxford : Wiley-Blackwell, 1971 61(2016), 2, Seite 195 (DE-627)129295906 (DE-600)121180-8 (DE-576)014489139 0046-5070 nnns volume:61 year:2016 number:2 pages:195 http://dx.doi.org/10.1111/fwb.12693 Volltext http://search.proquest.com/docview/1753633819 GBV_USEFLAG_A SYSFLAG_A GBV_OLC FID-BIODIV SSG-OLC-UMW SSG-OLC-TEC SSG-OLC-PHA SSG-OLC-DE-84 42.00 AVZ AR 61 2016 2 195
allfields_unstemmed	10.1111/fwb.12693 doi PQ20160430 (DE-627)OLC1971839728 (DE-599)GBVOLC1971839728 (PRQ)p642-ef1bdfc12ec55806fbc4720dde4d421a5923005fe0ab703238cd413749e2f830 (KEY)0056936420160000061000200195aquaticinsectbetadiversityisnotdependentonelevatio DE-627 ger DE-627 rakwb eng 570 DNB BIODIV fid 42.00 bkl Rachel A Harrington verfasserin aut Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams. N LeRoy Poff oth Boris C Kondratieff oth Enthalten in Freshwater biology Oxford : Wiley-Blackwell, 1971 61(2016), 2, Seite 195 (DE-627)129295906 (DE-600)121180-8 (DE-576)014489139 0046-5070 nnns volume:61 year:2016 number:2 pages:195 http://dx.doi.org/10.1111/fwb.12693 Volltext http://search.proquest.com/docview/1753633819 GBV_USEFLAG_A SYSFLAG_A GBV_OLC FID-BIODIV SSG-OLC-UMW SSG-OLC-TEC SSG-OLC-PHA SSG-OLC-DE-84 42.00 AVZ AR 61 2016 2 195
allfieldsGer	10.1111/fwb.12693 doi PQ20160430 (DE-627)OLC1971839728 (DE-599)GBVOLC1971839728 (PRQ)p642-ef1bdfc12ec55806fbc4720dde4d421a5923005fe0ab703238cd413749e2f830 (KEY)0056936420160000061000200195aquaticinsectbetadiversityisnotdependentonelevatio DE-627 ger DE-627 rakwb eng 570 DNB BIODIV fid 42.00 bkl Rachel A Harrington verfasserin aut Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams. N LeRoy Poff oth Boris C Kondratieff oth Enthalten in Freshwater biology Oxford : Wiley-Blackwell, 1971 61(2016), 2, Seite 195 (DE-627)129295906 (DE-600)121180-8 (DE-576)014489139 0046-5070 nnns volume:61 year:2016 number:2 pages:195 http://dx.doi.org/10.1111/fwb.12693 Volltext http://search.proquest.com/docview/1753633819 GBV_USEFLAG_A SYSFLAG_A GBV_OLC FID-BIODIV SSG-OLC-UMW SSG-OLC-TEC SSG-OLC-PHA SSG-OLC-DE-84 42.00 AVZ AR 61 2016 2 195
allfieldsSound	10.1111/fwb.12693 doi PQ20160430 (DE-627)OLC1971839728 (DE-599)GBVOLC1971839728 (PRQ)p642-ef1bdfc12ec55806fbc4720dde4d421a5923005fe0ab703238cd413749e2f830 (KEY)0056936420160000061000200195aquaticinsectbetadiversityisnotdependentonelevatio DE-627 ger DE-627 rakwb eng 570 DNB BIODIV fid 42.00 bkl Rachel A Harrington verfasserin aut Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams. N LeRoy Poff oth Boris C Kondratieff oth Enthalten in Freshwater biology Oxford : Wiley-Blackwell, 1971 61(2016), 2, Seite 195 (DE-627)129295906 (DE-600)121180-8 (DE-576)014489139 0046-5070 nnns volume:61 year:2016 number:2 pages:195 http://dx.doi.org/10.1111/fwb.12693 Volltext http://search.proquest.com/docview/1753633819 GBV_USEFLAG_A SYSFLAG_A GBV_OLC FID-BIODIV SSG-OLC-UMW SSG-OLC-TEC SSG-OLC-PHA SSG-OLC-DE-84 42.00 AVZ AR 61 2016 2 195
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However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. 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author	Rachel A Harrington
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topic_title	570 DNB BIODIV fid 42.00 bkl Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams
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title	Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams
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title_full	Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams
author_sort	Rachel A Harrington
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title_sort	aquatic insect [beta]-diversity is not dependent on elevation in southern rocky mountain streams
title_auth	Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams
abstract	Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams.
abstractGer	Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams.
abstract_unstemmed	Summary Relatively high [beta]-diversity among aquatic insect communities inhabiting high-elevation streams is most commonly presumed to result from increased dispersal limitation between isolated mountaintop 'islands'. However, these elevational patterns of [beta]-diversity have been predominately drawn from observed changes in community composition along single-thread channels, where the downstream increase in habitat size and hydrologic connectivity provides potential alternative explanations. In this study, we applied an alternative conceptual 'tributary model' to ask whether patterns of aquatic insect [beta]-diversity in similar-sized, hydrologically disconnected streams showed a similar elevational gradient in diversity patterns as previously reported for conceptual 'mainstem model' studies. Aquatic insects were sampled from 24 low-order, montane streams that are tributaries to larger rivers in three adjacent catchments spanning c. 2000-3500 m in elevation. We used relative abundance data to quantify two types of [beta]-diversity: (i) community turnover-[beta], or the change in local diversity among adjacent streams along the elevational gradient within each catchment, and (ii) community variation-[beta], or the change in local diversity among all streams within three elevation zones combined across catchments. Our results provided evidence of no relationship between [beta]-diversity and elevation in aquatic insect communities in small montane streams. Community turnover-[beta] was found to be consistently high among sites within catchments and displayed no significant trend across the elevational gradient for any catchment. Community variation-[beta] showed a nonlinear response to elevation, with sites in the high-elevation and low-elevation zones having similarly high community variation-[beta] compared to sites in the mid-elevation zone. Our 'tributary model' results provide the first evidence that [beta]-diversity among small, isolated streams can have similar turnover rates across broad elevational gradients. Our results also show similar patterns of [beta]-diversity among low- and high-elevation tributaries, suggesting that dispersal limitation is not restricted to high-elevation streams.
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title_short	Aquatic insect [beta]-diversity is not dependent on elevation in Southern Rocky Mountain streams
url	http://dx.doi.org/10.1111/fwb.12693 http://search.proquest.com/docview/1753633819
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up_date	2024-07-03T21:01:35.534Z
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