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The contribution of successional grasslands to the conservation of semi-natural grasslands species – A landscape perspective

Schmid, Barbara C. LU ; Poschlod, Peter and Prentice, Honor C. LU (2017) In Biological Conservation 206. p.112-119
Abstract

Many species that are typical of calcareous, semi-natural grasslands (“typical grassland species”) are declining in Europe as a result of habitat-loss and -fragmentation. Whereas populations of these species are expected to be largest in old semi-natural grasslands, these species may also occur in successional grasslands on previously arable fields. We used a space-for-time approach to analyse changes in the frequencies of typical grassland species, and changes in soil properties, over a 280-year arable-to-grassland succession within a Swedish landscape. Our study revealed that a number of typical grassland species had higher frequencies in mid-successional (50–279 years) than in old (≥ 280 years) grasslands. Mid-successional grasslands... (More)

Many species that are typical of calcareous, semi-natural grasslands (“typical grassland species”) are declining in Europe as a result of habitat-loss and -fragmentation. Whereas populations of these species are expected to be largest in old semi-natural grasslands, these species may also occur in successional grasslands on previously arable fields. We used a space-for-time approach to analyse changes in the frequencies of typical grassland species, and changes in soil properties, over a 280-year arable-to-grassland succession within a Swedish landscape. Our study revealed that a number of typical grassland species had higher frequencies in mid-successional (50–279 years) than in old (≥ 280 years) grasslands. Mid-successional grasslands also contained many of the typical grassland species that were present in old grasslands, but at lower frequencies, and had soil conditions similar to those of old grasslands. Early-successional (5–14 and 15–49 years) grasslands contained few typical grassland species. In highly fragmented landscapes, mid-successional grasslands provide additional habitat for many typical grassland species, and can function as temporary refugia (“substitute habitat”) for these species until old grasslands are “restored”. The overall population sizes of some typical grassland species and red-listed species are likely to be substantially increased by the presence of mid-successional grasslands within the landscape. Our study suggests that, rather than focussing solely on old grassland fragments, conservation strategies for typical grassland species should adopt a dynamic, landscape-based perspective that recognizes the role of successional grasslands. Ensuring a continuous development of mid-successional grasslands is expected to be beneficial for populations of many typical grassland species.

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author
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Arable-to-grassland succession, Landscape dynamics, Soil nutrients, Space-for-time, Species frequencies, Substitute habitat
in
Biological Conservation
volume
206
pages
8 pages
publisher
Elsevier
external identifiers
  • scopus:85007574347
  • wos:000394065900015
ISSN
0006-3207
DOI
10.1016/j.biocon.2016.12.002
language
English
LU publication?
yes
id
e5253587-f0c3-4c14-9c70-25395d1a4ff8
date added to LUP
2017-02-03 12:52:17
date last changed
2018-01-07 11:48:06
@article{e5253587-f0c3-4c14-9c70-25395d1a4ff8,
  abstract     = {<p>Many species that are typical of calcareous, semi-natural grasslands (“typical grassland species”) are declining in Europe as a result of habitat-loss and -fragmentation. Whereas populations of these species are expected to be largest in old semi-natural grasslands, these species may also occur in successional grasslands on previously arable fields. We used a space-for-time approach to analyse changes in the frequencies of typical grassland species, and changes in soil properties, over a 280-year arable-to-grassland succession within a Swedish landscape. Our study revealed that a number of typical grassland species had higher frequencies in mid-successional (50–279 years) than in old (≥ 280 years) grasslands. Mid-successional grasslands also contained many of the typical grassland species that were present in old grasslands, but at lower frequencies, and had soil conditions similar to those of old grasslands. Early-successional (5–14 and 15–49 years) grasslands contained few typical grassland species. In highly fragmented landscapes, mid-successional grasslands provide additional habitat for many typical grassland species, and can function as temporary refugia (“substitute habitat”) for these species until old grasslands are “restored”. The overall population sizes of some typical grassland species and red-listed species are likely to be substantially increased by the presence of mid-successional grasslands within the landscape. Our study suggests that, rather than focussing solely on old grassland fragments, conservation strategies for typical grassland species should adopt a dynamic, landscape-based perspective that recognizes the role of successional grasslands. Ensuring a continuous development of mid-successional grasslands is expected to be beneficial for populations of many typical grassland species.</p>},
  author       = {Schmid, Barbara C. and Poschlod, Peter and Prentice, Honor C.},
  issn         = {0006-3207},
  keyword      = {Arable-to-grassland succession,Landscape dynamics,Soil nutrients,Space-for-time,Species frequencies,Substitute habitat},
  language     = {eng},
  month        = {02},
  pages        = {112--119},
  publisher    = {Elsevier},
  series       = {Biological Conservation},
  title        = {The contribution of successional grasslands to the conservation of semi-natural grasslands species – A landscape perspective},
  url          = {http://dx.doi.org/10.1016/j.biocon.2016.12.002},
  volume       = {206},
  year         = {2017},
}