Cooperative interactions between invader and resident microbial community members weaken the negative diversity‐invasion relationship

The negative diversity‐invasion relationship observed in microbial invasion studies is commonly explained by competition between the invader and resident populations. However, whether this relationship is affected by invader‐resident cooperative interactions is unknown. Using ecological and mathemat...

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Veröffentlicht in:	Ecology letters 2024-05, Vol.27 (5), p.e14433-n/a
Hauptverfasser:	Vandermaesen, Johanna, Daly, Aisling J., Mawarda, Panji Cahya, Baetens, Jan M., De Baets, Bernard, Boon, Nico, Springael, Dirk
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Sprache:	eng
Schlagworte:	Aminobacter niigataensis Assemblies Benzamides Biodiversity colonizing ability Community composition community ecology community structure cooperation cooperative interactions diversity‐invasion relationship Drinking water Groundwater Groundwater - microbiology invasion resistance microbial communities Microbial Interactions microbial invasion Microbiota Microorganisms Mineralization Phyllobacteriaceae - physiology pollutants sand Survival
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container_title	Ecology letters
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creator	Vandermaesen, Johanna Daly, Aisling J. Mawarda, Panji Cahya Baetens, Jan M. De Baets, Bernard Boon, Nico Springael, Dirk
description	The negative diversity‐invasion relationship observed in microbial invasion studies is commonly explained by competition between the invader and resident populations. However, whether this relationship is affected by invader‐resident cooperative interactions is unknown. Using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria. The assemblies varied in richness and in strains that interacted pairwise with MSH1, including cooperative and competitive interactions. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality, highlighting the dependency of invasion success on community composition. No correlation existed between community richness and the delay in BAM mineralization by MSH1. The findings suggest that the presence of cooperative residents can alleviate the negative diversity‐invasion relationship. This paper explores whether pair‐wise interactions between an invader and resident bacteria affect the commonly observed negative diversity‐invasion relationship in microbial invasion studies. To this end, using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria with known pair‐wise interactions with MSH1. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality. Our findings highlight the dependency of invasion success on community composition and suggest that the presence of cooperative residents can alleviate the negative diversity‐invasion relationship.
doi_str_mv	10.1111/ele.14433
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However, whether this relationship is affected by invader‐resident cooperative interactions is unknown. Using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria. The assemblies varied in richness and in strains that interacted pairwise with MSH1, including cooperative and competitive interactions. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality, highlighting the dependency of invasion success on community composition. No correlation existed between community richness and the delay in BAM mineralization by MSH1. The findings suggest that the presence of cooperative residents can alleviate the negative diversity‐invasion relationship. This paper explores whether pair‐wise interactions between an invader and resident bacteria affect the commonly observed negative diversity‐invasion relationship in microbial invasion studies. To this end, using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria with known pair‐wise interactions with MSH1. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality. 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However, whether this relationship is affected by invader‐resident cooperative interactions is unknown. Using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria. The assemblies varied in richness and in strains that interacted pairwise with MSH1, including cooperative and competitive interactions. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality, highlighting the dependency of invasion success on community composition. No correlation existed between community richness and the delay in BAM mineralization by MSH1. The findings suggest that the presence of cooperative residents can alleviate the negative diversity‐invasion relationship. This paper explores whether pair‐wise interactions between an invader and resident bacteria affect the commonly observed negative diversity‐invasion relationship in microbial invasion studies. To this end, using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria with known pair‐wise interactions with MSH1. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality. 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However, whether this relationship is affected by invader‐resident cooperative interactions is unknown. Using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria. The assemblies varied in richness and in strains that interacted pairwise with MSH1, including cooperative and competitive interactions. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality, highlighting the dependency of invasion success on community composition. No correlation existed between community richness and the delay in BAM mineralization by MSH1. The findings suggest that the presence of cooperative residents can alleviate the negative diversity‐invasion relationship. This paper explores whether pair‐wise interactions between an invader and resident bacteria affect the commonly observed negative diversity‐invasion relationship in microbial invasion studies. To this end, using ecological and mathematical approaches, we examined the survival and functionality of Aminobacter niigataensis MSH1 to mineralize 2,6‐dichlorobenzamide (BAM), a groundwater micropollutant affecting drinking water production, in sand microcosms when inoculated together with synthetic assemblies of resident bacteria with known pair‐wise interactions with MSH1. While overall, the negative diversity‐invasion relationship was retained, residents engaging in cooperative interactions with the invader had a positive impact on MSH1 survival and functionality. Our findings highlight the dependency of invasion success on community composition and suggest that the presence of cooperative residents can alleviate the negative diversity‐invasion relationship.</abstract><cop>England</cop><pub>Blackwell Publishing Ltd</pub><pmid>38712704</pmid><doi>10.1111/ele.14433</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0003-3473-0581</orcidid></addata></record>
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subjects	Aminobacter niigataensis Assemblies Benzamides Biodiversity colonizing ability Community composition community ecology community structure cooperation cooperative interactions diversity‐invasion relationship Drinking water Groundwater Groundwater - microbiology invasion resistance microbial communities Microbial Interactions microbial invasion Microbiota Microorganisms Mineralization Phyllobacteriaceae - physiology pollutants sand Survival
title	Cooperative interactions between invader and resident microbial community members weaken the negative diversity‐invasion relationship
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