Multispecies grasslands produce more yield from lower nitrogen inputs across a climatic gradient
Les prairies multispécifiques produisent un rendement supérieur avec des apports d'azote inférieurs, et ce, le long d'un gradient climatique
O'Malley, James ; Finn, John A. ; Malisch, Carsten S. ; Suter, Matthias ; Meyer, Sebastian T. ; Peratoner, Giovanni ; Thivierge, Marie-Noëlle ; Abalos, Diego ; Adler, Paul R. ; Bezemer, T. Martijn ; Black, Alistair D. ; Ergon, Åshild ; Golinska, Barbara ; Grange, Guylain ; Hakl, Josef ; Hoekstra, Nyncke J. ; Huguenin-Elie, Olivier ; Jing, Jingying ; Jungers, Jacob M. ; Lajeunesse, Julie ; Loges, Ralf ; Louarn, Gaëtan ; Lüscher, Andreas ; Moloney, Thomas ; Reynolds, Christopher K. ; Sturite, Ievina ; Khan, Ali Sultan ; Vishwakarma, Rishabh ; Zhang, Yingjun ; Zhu, Feng ; Brophy, Caroline
Année de publication
2026
High-yielding forage grasslands frequently contain low species diversity and receive high inputs of nitrogen fertilizer. To investigate multispecies mixtures as an alternative strategy, the 26-site international LegacyNet experiment systematically varied the diversity of sown grasslands using up to six high-yielding forage species (grasses, legumes, and herbs) managed under moderate nitrogen inputs. Multispecies mixtures outyielded two widely used grassland practices: a grass monoculture with higher nitrogen fertilizer and a two-species grass-legume community. High yields in multispecies mixtures were driven by strong positive grass-legume and legume-herb interactions. In warmer sites, the yield advantage of legume-containing multispecies mixtures over grass monocultures with higher nitrogen fertilizer inputs increased. Improved design of grassland mixtures can inform more environmentally sustainable forage production and may enhance adaptation of productive grasslands to a warming climate.</div>
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