Response of soil chemical properties, enzyme activities and microbial communities to biochar application and climate change in a Mediterranean agroecosystem

0553504 - MBÚ 2023 RIV NL eng J - Journal Article
Luis Moreno, J. - Bastida, F. - Diaz-Lopez, M. - Li, Y. - Zhou, Y. - López-Mondejár, Rubén - Benavente-Ferraces, I. - Rojas, R. - Rey, A. - Carlos Garcia-Gil, J. - Plaza, C.
Response of soil chemical properties, enzyme activities and microbial communities to biochar application and climate change in a Mediterranean agroecosystem.
Geoderma. Roč. 407, FEB 1 2022 (2022), č. článku 115536. ISSN 0016-7061. E-ISSN 1872-6259
Institutional support: RVO:61388971
Keywords : acid rice paddy * organic-carbon * fungal community * land-use * temperature sensitivity * increased precipitation * drought * decomposition * alters * resistance * Climate change * Soil warming * Rain reduction * Soil microbial community * Biochar amendement * Crop land * Soil enzyme activities * Agroecosystems
OECD category: Microbiology
Impact factor: 6.1, year: 2022
Method of publishing: Open access
https://www.sciencedirect.com/science/article/pii/S0016706121006169?via%3Dihub

Changing climatic conditions (warming and decreasing precipitation) have been found to be a threat to the agricultural sustainability of Mediterranean croplands. From the climate change perspective, biochar amendment may interact with the effects of warming and drought stresses on soil ecosystems. However, the responses of soil microbial communities to the joint effects of climate change and biochar in Mediterranean croplands are not sufficiently known. To help fill this knowledge gap, in this work we used a field experiment to determine the effects of partial rain exclusion alone or combined with a soil temperature increase in biochar-amended (20 t ha-1) and unamended plots under crop rotation on soil chemical properties, enzyme activities, and the microbial community activity, structure, composition, abundance, and functions. The biomass, composition, and activity of the soil bacterial and fungal communities were more responsive to biochar addition than to climate manipulation. Thus, soil chemical parameters, enzyme activities and the relative abundances of bacterial populations were not responsive to the interaction of biochar and climate manipulation, while the predicted functionality of the bacterial community was modified by both factors. Soil beta-glucosidase activity significantly decreased in response to biochar addition and climate manipulation, while urease activity was significantly increased by biochar, and protease activity was significantly decreased by climate manipulation. Gram negative and fungal biomasses were significantly affected by the interaction of biochar with climate manipulation. Climate manipulation produced changes in the composition of the soil fungal community without loss of diversity. This study illustrates how the interactions between biochar amendment and future climate change scenarios influence microbially-driven ecosystem services related to the maintenance of nutrient cycles and biodiversity in a Mediterranean agroecosystem.
Permanent Link: https://hdl.handle.net/11104/0332741