The Agrodiversity Experiment: three years of data from a multisite study in intensively managed grasslands Ecological Archives
Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet
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The Agrodiversity Experiment : three years of data from a multisite study in intensively managed grasslands Ecological Archives. / Kirwan, Laura; Connolly, John; Brophy, Caroline et al.
in: Ecology, Jahrgang 95, Nr. 9, 11.06.2014, S. 2680.Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet
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TY - JOUR
T1 - The Agrodiversity Experiment
T2 - three years of data from a multisite study in intensively managed grasslands Ecological Archives
AU - Kirwan, Laura
AU - Connolly, John
AU - Brophy, Caroline
AU - Baadshaug, Ole
AU - Belanger, Gilles
AU - Black, Alistair
AU - Carnus, Tim
AU - Collins, Rosemary
AU - Cop, Jure
AU - Delgado, Ignacio
AU - de Vliegher, Alex
AU - Elgersma, Anjo
AU - Frankow-Lindberg, Bodil
AU - Golinski, Piotr
AU - Grieu, Philippe
AU - Gustavsson, Anne-Maj
AU - Helgadottir, Aslaug
AU - Höglind, Mats
AU - Huguenin-Elie, Olivier
AU - Jorgensen, Marit
AU - Kadziuliene, Zydre
AU - Lunnan, Tor
AU - Lüscher, Andreas
AU - Kurki, Paivi
AU - Porqueddu, Claudio
AU - Sebastia, M.-Teresa
AU - Thumm, Ulrich
AU - Walmsley, David
AU - Finn, John
PY - 2014/6/11
Y1 - 2014/6/11
N2 - Intensively managed grasslands are globally prominent ecosystems. We investigated whether experimental increases in plant diversity in intensively managed grassland communities can increase their resource use efficiency.This work consisted of a coordinated, continental‐scale 33‐site experiment. The core design was 30 plots, representing 15 grassland communities at two seeding densities. The 15 communities comprised four monocultures (two grasses and two legumes) and 11 four‐species mixtures that varied in the relative abundance of the four species at sowing. There were 1028 plots in the core experiment, with another 572 plots sown for additional treatments. Sites followed a protocol and employed the same experimental methods with certain plot management factors, such as seeding rates and number of cuts, determined by local practice. The four species used at a site depended on geographical location, but the species were chosen according to four functional traits: a fast‐establishing grass, a slow‐establishing persistent grass, a fast‐establishing legume, and a slow‐establishing persistent legume. As the objective was to maximize yield for intensive grassland production, the species chosen were all high‐yielding agronomic species.The data set contains species‐specific biomass measurements (yield per species and of weeds) for all harvests for up to four years at 33 sites. Samples of harvested vegetation were also analyzed for forage quality at 26 sites.These data should be of interest to ecologists studying relationships between diversity and ecosystem function and to agronomists interested in sustainable intensification. The large spatial scale of the sites provides opportunity for analyses across spatial (and temporal) scales. The database can also complement existing databases and meta‐analyses on biodiversity–ecosystem function relationships in natural communities by focusing on those same relationships within intensively managed agricultural grasslands.
AB - Intensively managed grasslands are globally prominent ecosystems. We investigated whether experimental increases in plant diversity in intensively managed grassland communities can increase their resource use efficiency.This work consisted of a coordinated, continental‐scale 33‐site experiment. The core design was 30 plots, representing 15 grassland communities at two seeding densities. The 15 communities comprised four monocultures (two grasses and two legumes) and 11 four‐species mixtures that varied in the relative abundance of the four species at sowing. There were 1028 plots in the core experiment, with another 572 plots sown for additional treatments. Sites followed a protocol and employed the same experimental methods with certain plot management factors, such as seeding rates and number of cuts, determined by local practice. The four species used at a site depended on geographical location, but the species were chosen according to four functional traits: a fast‐establishing grass, a slow‐establishing persistent grass, a fast‐establishing legume, and a slow‐establishing persistent legume. As the objective was to maximize yield for intensive grassland production, the species chosen were all high‐yielding agronomic species.The data set contains species‐specific biomass measurements (yield per species and of weeds) for all harvests for up to four years at 33 sites. Samples of harvested vegetation were also analyzed for forage quality at 26 sites.These data should be of interest to ecologists studying relationships between diversity and ecosystem function and to agronomists interested in sustainable intensification. The large spatial scale of the sites provides opportunity for analyses across spatial (and temporal) scales. The database can also complement existing databases and meta‐analyses on biodiversity–ecosystem function relationships in natural communities by focusing on those same relationships within intensively managed agricultural grasslands.
KW - Biology
KW - Ecosystems Research
KW - agricultural grasslands
KW - biodiversity
KW - Ecosystem function
KW - forage quality
KW - MIXTURES
KW - monocultures
KW - overyielding
KW - plant community
KW - species biomass
KW - Yields
KW - agricultural grasslands
KW - biodiversity
KW - ecosystem function
KW - forage quality
KW - mixtures
KW - monocultures
KW - overyielding
KW - plant community
KW - species biomass
KW - yield
U2 - 10.1890/14-0170.1
DO - 10.1890/14-0170.1
M3 - Journal articles
VL - 95
SP - 2680
JO - Ecology
JF - Ecology
SN - 0012-9658
IS - 9
ER -