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Turnover and nestedness drive plant diversity benefits of organic farming from local to landscape scales

Carrié, Romain LU ; Ekroos, Johan LU and Smith, Henrik G. LU (2022) In Ecological Applications 32(4).
Abstract

Biodiversity-benefits of organic farming have mostly been documented at the field scale. However, these benefits from organic farming to species diversity may not propagate to larger scales because variation in the management of different crop types and seminatural habitats in conventional farms might allow species to cope with intensive crop management. We studied flowering plant communities using a spatially replicated design in different habitats (cereal, ley and seminatural grasslands) in organic and conventional farms, distributed along a gradient in proportion of seminatural grasslands. We developed a novel method to compare the rates of species turnover within and between habitats, and between the total species pools in the two... (More)

Biodiversity-benefits of organic farming have mostly been documented at the field scale. However, these benefits from organic farming to species diversity may not propagate to larger scales because variation in the management of different crop types and seminatural habitats in conventional farms might allow species to cope with intensive crop management. We studied flowering plant communities using a spatially replicated design in different habitats (cereal, ley and seminatural grasslands) in organic and conventional farms, distributed along a gradient in proportion of seminatural grasslands. We developed a novel method to compare the rates of species turnover within and between habitats, and between the total species pools in the two farming systems. We found that the intrahabitat species turnover did not differ between organic and conventional farms, but that organic farms had a significantly higher interhabitat turnover of flowering plant species compared with conventional ones. This was mainly driven by herbicide-sensitive species in cereal fields in organic farms, as these contained 2.5 times more species exclusive to cereal fields compared with conventional farms. The farm-scale species richness of flowering plants was higher in organic compared with conventional farms, but only in simple landscapes. At the interfarm level, we found that 36% of species were shared between the two farming systems, 37% were specific to organic farms whereas 27% were specific to conventional ones. Therefore, our results suggest that that both community nestedness and species turnover drive changes in species composition between the two farming systems. These large-scale shifts in species composition were driven by both species-specific herbicide and nitrogen sensitivity of plants. Our study demonstrates that organic farming should foster a diversity of flowering plant species from local to landscape scales, by promoting unique sets of arable-adapted species that are scarce in conventional systems. In terms of biodiversity conservation, our results call for promoting organic farming over large spatial extents, especially in simple landscapes, where such transitions would benefit plant diversity most.

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author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
beta-diversity, flowering plants, landscape, organic farming, species turnover
in
Ecological Applications
volume
32
issue
4
article number
e2576
publisher
Ecological Society of America
external identifiers
  • pmid:35191107
  • scopus:85127783208
ISSN
1051-0761
DOI
10.1002/eap.2576
language
English
LU publication?
yes
id
f44ae2f3-ed3b-44d6-b35a-580c98095f30
date added to LUP
2022-06-28 13:34:04
date last changed
2024-10-30 20:15:20
@article{f44ae2f3-ed3b-44d6-b35a-580c98095f30,
  abstract     = {{<p>Biodiversity-benefits of organic farming have mostly been documented at the field scale. However, these benefits from organic farming to species diversity may not propagate to larger scales because variation in the management of different crop types and seminatural habitats in conventional farms might allow species to cope with intensive crop management. We studied flowering plant communities using a spatially replicated design in different habitats (cereal, ley and seminatural grasslands) in organic and conventional farms, distributed along a gradient in proportion of seminatural grasslands. We developed a novel method to compare the rates of species turnover within and between habitats, and between the total species pools in the two farming systems. We found that the intrahabitat species turnover did not differ between organic and conventional farms, but that organic farms had a significantly higher interhabitat turnover of flowering plant species compared with conventional ones. This was mainly driven by herbicide-sensitive species in cereal fields in organic farms, as these contained 2.5 times more species exclusive to cereal fields compared with conventional farms. The farm-scale species richness of flowering plants was higher in organic compared with conventional farms, but only in simple landscapes. At the interfarm level, we found that 36% of species were shared between the two farming systems, 37% were specific to organic farms whereas 27% were specific to conventional ones. Therefore, our results suggest that that both community nestedness and species turnover drive changes in species composition between the two farming systems. These large-scale shifts in species composition were driven by both species-specific herbicide and nitrogen sensitivity of plants. Our study demonstrates that organic farming should foster a diversity of flowering plant species from local to landscape scales, by promoting unique sets of arable-adapted species that are scarce in conventional systems. In terms of biodiversity conservation, our results call for promoting organic farming over large spatial extents, especially in simple landscapes, where such transitions would benefit plant diversity most.</p>}},
  author       = {{Carrié, Romain and Ekroos, Johan and Smith, Henrik G.}},
  issn         = {{1051-0761}},
  keywords     = {{beta-diversity; flowering plants; landscape; organic farming; species turnover}},
  language     = {{eng}},
  number       = {{4}},
  publisher    = {{Ecological Society of America}},
  series       = {{Ecological Applications}},
  title        = {{Turnover and nestedness drive plant diversity benefits of organic farming from local to landscape scales}},
  url          = {{http://dx.doi.org/10.1002/eap.2576}},
  doi          = {{10.1002/eap.2576}},
  volume       = {{32}},
  year         = {{2022}},
}