Uncertainty in ensemble modelling of large-scale species distribution: Effects from species characteristics and model techniques

•The first perspective on the uncertainties of SDMs in predicting fish species distribution in Chinese lake ecosystems was proposed.•Predictions from single SDM were so variety and unreliable while ensemble approaches could improve the accuracy.•Species characteristics as species prevalence, altitud...

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Veröffentlicht in:	Ecological modelling 2015-06, Vol.306, p.67-75
Hauptverfasser:	Guo, Chuanbo, Lek, Sovan, Ye, Shaowen, Li, Wei, Liu, Jiashou, Li, Zhongjie
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Sprache:	eng
Schlagworte:	China Ecosystems Ensemble models Fish Fish species Mathematical models Modelling Precipitation Species characteristic Species distribution model Uncertainties Uncertainty Wildlife conservation
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container_title	Ecological modelling
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creator	Guo, Chuanbo Lek, Sovan Ye, Shaowen Li, Wei Liu, Jiashou Li, Zhongjie
description	•The first perspective on the uncertainties of SDMs in predicting fish species distribution in Chinese lake ecosystems was proposed.•Predictions from single SDM were so variety and unreliable while ensemble approaches could improve the accuracy.•Species characteristics as species prevalence, altitude range size and precipitation range size would strongly affect the outcomes of SDMs.•The hypothesis that species distributed with a smaller range size could be more accurately predicted than species with large range size was plausible in aquatic ecosystems. Species distribution models (SDM) have been routinely used for the purpose of species conservation and biodiversity management, especially in the context of global climate change. However, there is little knowledge about the uncertainty source on the SDM for the predictions in aquatic ecosystems, especially in the large-scale research. Therefore, we contribute to the first perspective on the uncertainties of SDMs in predicting fish species distribution in lake ecosystems. In total, 92 fish species were predicted with climatic and geographical variables, respectively, using nine widely implemented species distribution models. Generally, we focused on the potential impacts from two main kinds of uncertainty sources: species characteristics (containing species prevalence, altitude range, temperature range and precipitation range) and model technique (calibration technique and evaluation technique). Finally, our results highlight that predictions from single SDM were so variable and unreliable for all species while ensemble approaches could yield more accurate predictions; we also found that there was no significant influence on the model outcomes from the evaluation measures; we emphasized that species characteristics as species prevalence, altitude range size and precipitation range size would strongly affect the outcomes of SDMs, but temperature range size didn’t show a significant influence; our findings finally verified the hypothesis that species distributed with a smaller range size could be more accurately predicted than species with large range size was plausible in aquatic ecosystems. Our research would provide promising insights into the prediction of fish species in aquatic ecosystems under the impacts of global climate change, especially for the conservation of endemic fish species in China. Moreover, our results improved the understanding of uncertainties from species characteristics and modelling
doi_str_mv	10.1016/j.ecolmodel.2014.08.002
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Species distribution models (SDM) have been routinely used for the purpose of species conservation and biodiversity management, especially in the context of global climate change. However, there is little knowledge about the uncertainty source on the SDM for the predictions in aquatic ecosystems, especially in the large-scale research. Therefore, we contribute to the first perspective on the uncertainties of SDMs in predicting fish species distribution in lake ecosystems. In total, 92 fish species were predicted with climatic and geographical variables, respectively, using nine widely implemented species distribution models. Generally, we focused on the potential impacts from two main kinds of uncertainty sources: species characteristics (containing species prevalence, altitude range, temperature range and precipitation range) and model technique (calibration technique and evaluation technique). Finally, our results highlight that predictions from single SDM were so variable and unreliable for all species while ensemble approaches could yield more accurate predictions; we also found that there was no significant influence on the model outcomes from the evaluation measures; we emphasized that species characteristics as species prevalence, altitude range size and precipitation range size would strongly affect the outcomes of SDMs, but temperature range size didn’t show a significant influence; our findings finally verified the hypothesis that species distributed with a smaller range size could be more accurately predicted than species with large range size was plausible in aquatic ecosystems. Our research would provide promising insights into the prediction of fish species in aquatic ecosystems under the impacts of global climate change, especially for the conservation of endemic fish species in China. 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Species distribution models (SDM) have been routinely used for the purpose of species conservation and biodiversity management, especially in the context of global climate change. However, there is little knowledge about the uncertainty source on the SDM for the predictions in aquatic ecosystems, especially in the large-scale research. Therefore, we contribute to the first perspective on the uncertainties of SDMs in predicting fish species distribution in lake ecosystems. In total, 92 fish species were predicted with climatic and geographical variables, respectively, using nine widely implemented species distribution models. Generally, we focused on the potential impacts from two main kinds of uncertainty sources: species characteristics (containing species prevalence, altitude range, temperature range and precipitation range) and model technique (calibration technique and evaluation technique). Finally, our results highlight that predictions from single SDM were so variable and unreliable for all species while ensemble approaches could yield more accurate predictions; we also found that there was no significant influence on the model outcomes from the evaluation measures; we emphasized that species characteristics as species prevalence, altitude range size and precipitation range size would strongly affect the outcomes of SDMs, but temperature range size didn’t show a significant influence; our findings finally verified the hypothesis that species distributed with a smaller range size could be more accurately predicted than species with large range size was plausible in aquatic ecosystems. Our research would provide promising insights into the prediction of fish species in aquatic ecosystems under the impacts of global climate change, especially for the conservation of endemic fish species in China. Moreover, our results improved the understanding of uncertainties from species characteristics and modelling techniques in species distribution model.</description><subject>China</subject><subject>Ecosystems</subject><subject>Ensemble models</subject><subject>Fish</subject><subject>Fish species</subject><subject>Mathematical models</subject><subject>Modelling</subject><subject>Precipitation</subject><subject>Species characteristic</subject><subject>Species distribution model</subject><subject>Uncertainties</subject><subject>Uncertainty</subject><subject>Wildlife conservation</subject><issn>0304-3800</issn><issn>1872-7026</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNqNkT1PBCEQhonRxPP0N0hps-sAe7t7dsb4lZjYaE1YGJTLLpzAmdj50-U8Y6sVxbzzkHkfQk4Z1AxYe76qUYdxCgbHmgNrauhrAL5HZqzveNUBb_fJDAQ0legBDslRSisAYLznM_L57DXGrJzPH9R5ij7hNIxIv4Gj8y80WDqq-IJV0qoM0hq1w0SNSzm6YZNd8Bf02lrUOVEbw_Qb0a8qKp0xlqjTiSpvdlyaUb9697bBdEwOrBoTnvy8c_J8c_10dVc9PN7eX10-VHrBWa6WRgMsFwiDQq4GZRrTDk0jlLXcioUZsBGtXgIabPt2wbS1jItBt6ITvBdMzMnZjruOYftvlpNLupyoPIZNkqzrSke8a_k_ogUJnfimdruojiGliFauo5tU_JAM5FaPXMlfPXKrR0Ivi56yebnbxHL0u8MoU-msyDAulialCe5Pxhd9XqBy</recordid><startdate>20150601</startdate><enddate>20150601</enddate><creator>Guo, Chuanbo</creator><creator>Lek, Sovan</creator><creator>Ye, Shaowen</creator><creator>Li, Wei</creator><creator>Liu, Jiashou</creator><creator>Li, Zhongjie</creator><general>Elsevier B.V</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7QH</scope><scope>7SN</scope><scope>7ST</scope><scope>7U6</scope><scope>7UA</scope><scope>C1K</scope><scope>F1W</scope><scope>H95</scope><scope>L.G</scope><scope>8FD</scope><scope>FR3</scope><scope>KR7</scope></search><sort><creationdate>20150601</creationdate><title>Uncertainty in ensemble modelling of large-scale species distribution: Effects from species characteristics and model techniques</title><author>Guo, Chuanbo ; 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Finally, our results highlight that predictions from single SDM were so variable and unreliable for all species while ensemble approaches could yield more accurate predictions; we also found that there was no significant influence on the model outcomes from the evaluation measures; we emphasized that species characteristics as species prevalence, altitude range size and precipitation range size would strongly affect the outcomes of SDMs, but temperature range size didn’t show a significant influence; our findings finally verified the hypothesis that species distributed with a smaller range size could be more accurately predicted than species with large range size was plausible in aquatic ecosystems. Our research would provide promising insights into the prediction of fish species in aquatic ecosystems under the impacts of global climate change, especially for the conservation of endemic fish species in China. 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subjects	China Ecosystems Ensemble models Fish Fish species Mathematical models Modelling Precipitation Species characteristic Species distribution model Uncertainties Uncertainty Wildlife conservation
title	Uncertainty in ensemble modelling of large-scale species distribution: Effects from species characteristics and model techniques
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