The artificial drainage of heavy textured gley soils is prevalent on pasture. Drainage of a soil profile reduces the water filled pore space (WFPS) in the upper soil horizons with consequences for N2 and N2O emissions, the fate of nitrogen (N), transformational processes and microbial and bacterial communities. The present intact soil column study with isotopically enriched fertiliser investigates all these aspects simultaneously under two WFPS treatments (80% (HS) and 55% (LS) saturation).
The unprecedented global heatwave of 2014–2017 was a defining event for many ecosystems. Widespread degradation caused by coral bleaching, for example, highlighted the vulnerability of hundreds of millions of people dependent on reefs for their livelihoods, well-being, and food security. Scientists and policy makers are now reassessing long-held assumptions about coping with anthropogenic climate change, particularly the assumption that strong local institutions can maintain ecological and social resilience through ecosystem-based management, adaptation, and restoration.
