Soil fauna and organic amendment interactions affect soil carbon and crop performance in semi-arid West Africa

Autor: Leo Stroosnijder, Lijbert Brussaard, Elisée Ouédraogo
Jazyk: angličtina
Rok vydání: 2007
Předmět:
Zdroj: Biology and Fertility of Soils 44 (2007) 2
Biology and Fertility of Soils, 44(2), 343-351
ISSN: 0178-2762
Popis: A field experiment was conducted at Kaibo in southern Burkina Faso on an Eutric Cambisol during the 2000 rainy season to assess the interaction of organic amendment quality and soil fauna, affecting soil organic carbon and sorghum ( Sorghum bicolor L. Moench) performance. Plots were treated with the pesticides Dursban and Endosulfan to exclude soil fauna or left untreated. Sub-treatments consisted of surface-placed maize straw ( C/N ratio= 58), Andropogon straw ( C/N ratio= 153), cattle dung ( C/N ratio= 40), sheep dung ( C/N ratio= 17) or compost ( C/N ratio= 10) and the control. Organic amendments were applied at a dose equivalent to the application of 40 kg N ha(-1). The presence of soil fauna increased soil total carbon by 32% and grain yield production by 50%. The interaction between high C/N ratio organic amendment, Andropogon straw ( SA), and soil fauna reduced soil carbon build-up. We suggest that this is due to a priming effect of SA on soil organic matter in the presence of soil fauna. We also suggest that the interaction between soil fauna and easily decomposable organic amendment led to the smallest decrease in soil carbon build-up. It is concluded that in semi-arid West Africa, in the presence of soil fauna, soil carbon build-up is more affected by the quality of organic amendments than the quantity of carbon inputs. Sorghum grain yield production was significantly reduced in the absence of soil fauna. High C/N ratio organic amendment interacted negatively with soil fauna in its effects on crop performance. We propose that the effect of soil fauna on soil carbon build-up and crop performance can be optimised by using high quality organic matter of supplementing low-quality organic matter with inorganic nitrogen in semi-arid West Africa.
Databáze: OpenAIRE
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