The influence of grain legume and tillage strategies on co2 and n2o gas exchange under varied environmental conditions

Emilie Marie Øst Hansen, Henrik Hauggaard-Nielsen, Eric Justes, Per Ambus*, Teis Nørgaard Mikkelsen

*Corresponding author for this work

Research output: Contribution to journalJournal articlepeer-review

Abstract

By this in vitro study addressing greenhouse gas (GHG) emissions from soil-plant mesocosms, we suggest a method to investigate the joint effects of environmental conditions, growth of plants, and agricultural soil management. Soils from two long-term agricultural trials in France were placed in climate chambers. The rotation trial was with or without grain legumes, and the tillage trial used plowing or reduced tillage. Environmental conditions consisted of two contrasting temperature regimes combined with ambient (400 ppm) or high (700 ppm) CO2 concentrations in climate chambers. The plant growth went from seeding to vegetative growth. Carbon dioxide gas exchange measurements were conducted in both soil types for a period representing initial plant growth. The CO2 exchange was influenced by the growing plants increasing the mesocosm respiration and gross ecosystem production. The environmental settings had no noticeable impact on the CO2 exchange in the soils from the legume trial. The CO2 exchange from the tillage trial soils exhibited variations induced by the environmental conditions depending on the tillage treatment. The N2O emission measurements in the legume trial soils showed little variability based on rotation, however, in soils with legumes, indications that higher temperatures will lead to more N2O emission were seen.

Original languageEnglish
Article number464
JournalAgriculture
Volume11
Issue number5
DOIs
Publication statusPublished - 2021

Bibliographical note

Funding Information:
This research was funded by Joint Programming Initiative on Agriculture, Food Security and Climate Change (FACCE-JPI); the FACCE-ERA-NET+ project Climate–CAFÉ.

Keywords

  • Gross ecosystem production
  • Mesocosm
  • Net ecosystem exchange
  • Rotation
  • Soil tillage

Cite this