Fragmentation disrupts microbial effects on native plant community productivity

Anthropogenic habitat fragmentation—the breaking up of natural landscapes—is a pervasive threat to biodiversity and ecosystem function world‐wide. Fragmentation results in a mosaic of remnant native habitat patches embedded in human‐modified habitat known as the ‘matrix’. By introducing novel enviro...

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Veröffentlicht in:	The Journal of ecology 2023-06, Vol.111 (6), p.1292-1307
Hauptverfasser:	Kiesewetter, Kasey N., Otano, Leydiana, Afkhami, Michelle E.
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Sprache:	eng
Schlagworte:	Anthropogenic factors Biodiversity Community composition Composition Ecosystem services Environmental conditions Fragmentation Fragments Fungi Habitat connectivity Habitat fragmentation habitat loss Habitats Indigenous plants matrix microbial ecology Microbiomes Microorganisms Pathogens pine rocklands Plant communities Plant populations Plants plant–microbe interactions Productivity soil microbiomes Species diversity Symbionts urban Urban areas Urban environments Urbanization Variation
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creator	Kiesewetter, Kasey N. Otano, Leydiana Afkhami, Michelle E.
description	Anthropogenic habitat fragmentation—the breaking up of natural landscapes—is a pervasive threat to biodiversity and ecosystem function world‐wide. Fragmentation results in a mosaic of remnant native habitat patches embedded in human‐modified habitat known as the ‘matrix’. By introducing novel environmental conditions in matrix habitats and reducing connectivity of native habitats, fragmentation can dramatically change how organisms experience their environment. The effects of fragmentation can be especially important in urban landscapes, which are expanding across the globe. Despite this surging threat and the importance of microbiomes for ecosystem services, we know very little about how fragmentation affects microbiomes and even less about their consequences for plant–microbe interactions in urban landscapes. By combining field surveys, microbiome sequencing and experimental mesocosms, we (1) investigated how microbial community diversity, composition and functional profiles differed between 15 native pine rockland fragments and the adjacent urban matrix habitat, (2) identified habitat attributes that explained significant variation in microbial diversity of native core habitat compared to urban matrix and (3) tested how changes in urbanized and low connectivity microbiomes affected plant community productivity. We found urban and native microbiomes differed substantively in diversity, composition and functional profiles, including symbiotic fungi decreasing 81% and pathogens increasing 327% in the urban matrix compared to native habitat. Furthermore, fungal diversity rapidly declined as native habitats became increasingly isolated, with ~50% of variation across the landscape explained by habitat connectivity alone. Interestingly, microbiomes from native habitats increased plant productivity by ~300% while urban matrix microbiomes had no effect, suggesting that urbanization may decouple beneficial plant–microbe interactions. In addition, microbial diversity within native habitats explained significant variation in plant community productivity, with higher productivity linked to more diverse microbiomes from more connected, larger fragments. Synthesis. Taken together, our study not only documents significant changes in microbial diversity, composition and functions in the urban matrix, but also supports that two aspects of habitat fragmentation—the introduction of a novel urban matrix and reduced habitat connectivity—disrupt microbial effects on plant com
doi_str_mv	10.1111/1365-2745.14097
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Fragmentation results in a mosaic of remnant native habitat patches embedded in human‐modified habitat known as the ‘matrix’. By introducing novel environmental conditions in matrix habitats and reducing connectivity of native habitats, fragmentation can dramatically change how organisms experience their environment. The effects of fragmentation can be especially important in urban landscapes, which are expanding across the globe. Despite this surging threat and the importance of microbiomes for ecosystem services, we know very little about how fragmentation affects microbiomes and even less about their consequences for plant–microbe interactions in urban landscapes. By combining field surveys, microbiome sequencing and experimental mesocosms, we (1) investigated how microbial community diversity, composition and functional profiles differed between 15 native pine rockland fragments and the adjacent urban matrix habitat, (2) identified habitat attributes that explained significant variation in microbial diversity of native core habitat compared to urban matrix and (3) tested how changes in urbanized and low connectivity microbiomes affected plant community productivity. We found urban and native microbiomes differed substantively in diversity, composition and functional profiles, including symbiotic fungi decreasing 81% and pathogens increasing 327% in the urban matrix compared to native habitat. Furthermore, fungal diversity rapidly declined as native habitats became increasingly isolated, with ~50% of variation across the landscape explained by habitat connectivity alone. Interestingly, microbiomes from native habitats increased plant productivity by ~300% while urban matrix microbiomes had no effect, suggesting that urbanization may decouple beneficial plant–microbe interactions. In addition, microbial diversity within native habitats explained significant variation in plant community productivity, with higher productivity linked to more diverse microbiomes from more connected, larger fragments. Synthesis. Taken together, our study not only documents significant changes in microbial diversity, composition and functions in the urban matrix, but also supports that two aspects of habitat fragmentation—the introduction of a novel urban matrix and reduced habitat connectivity—disrupt microbial effects on plant community productivity, highlighting preservation of native microbiomes as critical for productivity in remnant fragments. Our study of a South Florida endemic and critically imperilled Pine Rocklands ecosystem explores microbiome‐mediated effects of urbanization and habitat fragmentation on plant communities. We found that microbiome diversity, composition, and functions change with increasing isolation of remnant native habitats and in urban matrix habitats. Further, results from mesocosm experiments support that two aspects of habitat fragmentation—reduced habitat connectivity and the introduction of a novel urban matrix—disrupt microbial effects on plant community productivity, highlighting the importance of preservation of native plant communities in remnant native habitats.</description><identifier>ISSN: 0022-0477</identifier><identifier>EISSN: 1365-2745</identifier><identifier>DOI: 10.1111/1365-2745.14097</identifier><language>eng</language><publisher>Oxford: Blackwell Publishing Ltd</publisher><subject>Anthropogenic factors ; Biodiversity ; Community composition ; Composition ; Ecosystem services ; Environmental conditions ; Fragmentation ; Fragments ; Fungi ; Habitat connectivity ; Habitat fragmentation ; habitat loss ; Habitats ; Indigenous plants ; matrix ; microbial ecology ; Microbiomes ; Microorganisms ; Pathogens ; pine rocklands ; Plant communities ; Plant populations ; Plants ; plant–microbe interactions ; Productivity ; soil microbiomes ; Species diversity ; Symbionts ; urban ; Urban areas ; Urban environments ; Urbanization ; Variation</subject><ispartof>The Journal of ecology, 2023-06, Vol.111 (6), p.1292-1307</ispartof><rights>2023 The Authors. 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Fragmentation results in a mosaic of remnant native habitat patches embedded in human‐modified habitat known as the ‘matrix’. By introducing novel environmental conditions in matrix habitats and reducing connectivity of native habitats, fragmentation can dramatically change how organisms experience their environment. The effects of fragmentation can be especially important in urban landscapes, which are expanding across the globe. Despite this surging threat and the importance of microbiomes for ecosystem services, we know very little about how fragmentation affects microbiomes and even less about their consequences for plant–microbe interactions in urban landscapes. By combining field surveys, microbiome sequencing and experimental mesocosms, we (1) investigated how microbial community diversity, composition and functional profiles differed between 15 native pine rockland fragments and the adjacent urban matrix habitat, (2) identified habitat attributes that explained significant variation in microbial diversity of native core habitat compared to urban matrix and (3) tested how changes in urbanized and low connectivity microbiomes affected plant community productivity. We found urban and native microbiomes differed substantively in diversity, composition and functional profiles, including symbiotic fungi decreasing 81% and pathogens increasing 327% in the urban matrix compared to native habitat. Furthermore, fungal diversity rapidly declined as native habitats became increasingly isolated, with ~50% of variation across the landscape explained by habitat connectivity alone. Interestingly, microbiomes from native habitats increased plant productivity by ~300% while urban matrix microbiomes had no effect, suggesting that urbanization may decouple beneficial plant–microbe interactions. In addition, microbial diversity within native habitats explained significant variation in plant community productivity, with higher productivity linked to more diverse microbiomes from more connected, larger fragments. Synthesis. Taken together, our study not only documents significant changes in microbial diversity, composition and functions in the urban matrix, but also supports that two aspects of habitat fragmentation—the introduction of a novel urban matrix and reduced habitat connectivity—disrupt microbial effects on plant community productivity, highlighting preservation of native microbiomes as critical for productivity in remnant fragments. Our study of a South Florida endemic and critically imperilled Pine Rocklands ecosystem explores microbiome‐mediated effects of urbanization and habitat fragmentation on plant communities. We found that microbiome diversity, composition, and functions change with increasing isolation of remnant native habitats and in urban matrix habitats. Further, results from mesocosm experiments support that two aspects of habitat fragmentation—reduced habitat connectivity and the introduction of a novel urban matrix—disrupt microbial effects on plant community productivity, highlighting the importance of preservation of native plant communities in remnant native habitats.</description><subject>Anthropogenic factors</subject><subject>Biodiversity</subject><subject>Community composition</subject><subject>Composition</subject><subject>Ecosystem services</subject><subject>Environmental conditions</subject><subject>Fragmentation</subject><subject>Fragments</subject><subject>Fungi</subject><subject>Habitat connectivity</subject><subject>Habitat fragmentation</subject><subject>habitat loss</subject><subject>Habitats</subject><subject>Indigenous plants</subject><subject>matrix</subject><subject>microbial ecology</subject><subject>Microbiomes</subject><subject>Microorganisms</subject><subject>Pathogens</subject><subject>pine rocklands</subject><subject>Plant communities</subject><subject>Plant populations</subject><subject>Plants</subject><subject>plant–microbe interactions</subject><subject>Productivity</subject><subject>soil microbiomes</subject><subject>Species diversity</subject><subject>Symbionts</subject><subject>urban</subject><subject>Urban areas</subject><subject>Urban environments</subject><subject>Urbanization</subject><subject>Variation</subject><issn>0022-0477</issn><issn>1365-2745</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><recordid>eNqFkE1PwzAMhiMEEmNw5lqJc1mSJk1zRNPGhybtAucoSR2UqV8kLWj_nowirvhi2X5eW34RuiX4nqRYkaLkORWM3xOGpThDi7_OOVpgTGmOmRCX6CrGA8a4FBwv0H4b9HsL3ahH33dZ7WOYhjFmrbehN143GTgHNnXStEvQJ2RDo7sxs33bTp0fj9kQ-nqyaZSKa3ThdBPh5jcv0dt287p-ynf7x-f1wy63BeEiJxIMGMwpMC5LAq50BWBZUVPjytDKEGForavSMiYryXhCeF0XWgOj1uliie7mven4xwRxVId-Cl06qWhFqSxKykiiVjOVnokxgFND8K0OR0WwOrmmTh6pk0fqx7Wk4LPiyzdw_A9XL5v1rPsGUxpv-A</recordid><startdate>202306</startdate><enddate>202306</enddate><creator>Kiesewetter, Kasey N.</creator><creator>Otano, Leydiana</creator><creator>Afkhami, Michelle E.</creator><general>Blackwell Publishing Ltd</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7QG</scope><scope>7SN</scope><scope>7SS</scope><scope>7ST</scope><scope>8FD</scope><scope>C1K</scope><scope>F1W</scope><scope>FR3</scope><scope>H95</scope><scope>L.G</scope><scope>M7N</scope><scope>P64</scope><scope>RC3</scope><scope>SOI</scope><orcidid>https://orcid.org/0000-0001-7207-6256</orcidid><orcidid>https://orcid.org/0000-0003-3983-4718</orcidid></search><sort><creationdate>202306</creationdate><title>Fragmentation disrupts microbial effects on native plant community productivity</title><author>Kiesewetter, Kasey N. ; 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Fragmentation results in a mosaic of remnant native habitat patches embedded in human‐modified habitat known as the ‘matrix’. By introducing novel environmental conditions in matrix habitats and reducing connectivity of native habitats, fragmentation can dramatically change how organisms experience their environment. The effects of fragmentation can be especially important in urban landscapes, which are expanding across the globe. Despite this surging threat and the importance of microbiomes for ecosystem services, we know very little about how fragmentation affects microbiomes and even less about their consequences for plant–microbe interactions in urban landscapes. By combining field surveys, microbiome sequencing and experimental mesocosms, we (1) investigated how microbial community diversity, composition and functional profiles differed between 15 native pine rockland fragments and the adjacent urban matrix habitat, (2) identified habitat attributes that explained significant variation in microbial diversity of native core habitat compared to urban matrix and (3) tested how changes in urbanized and low connectivity microbiomes affected plant community productivity. We found urban and native microbiomes differed substantively in diversity, composition and functional profiles, including symbiotic fungi decreasing 81% and pathogens increasing 327% in the urban matrix compared to native habitat. Furthermore, fungal diversity rapidly declined as native habitats became increasingly isolated, with ~50% of variation across the landscape explained by habitat connectivity alone. Interestingly, microbiomes from native habitats increased plant productivity by ~300% while urban matrix microbiomes had no effect, suggesting that urbanization may decouple beneficial plant–microbe interactions. In addition, microbial diversity within native habitats explained significant variation in plant community productivity, with higher productivity linked to more diverse microbiomes from more connected, larger fragments. Synthesis. Taken together, our study not only documents significant changes in microbial diversity, composition and functions in the urban matrix, but also supports that two aspects of habitat fragmentation—the introduction of a novel urban matrix and reduced habitat connectivity—disrupt microbial effects on plant community productivity, highlighting preservation of native microbiomes as critical for productivity in remnant fragments. 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subjects	Anthropogenic factors Biodiversity Community composition Composition Ecosystem services Environmental conditions Fragmentation Fragments Fungi Habitat connectivity Habitat fragmentation habitat loss Habitats Indigenous plants matrix microbial ecology Microbiomes Microorganisms Pathogens pine rocklands Plant communities Plant populations Plants plant–microbe interactions Productivity soil microbiomes Species diversity Symbionts urban Urban areas Urban environments Urbanization Variation
title	Fragmentation disrupts microbial effects on native plant community productivity
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