Please use this identifier to cite or link to this item: http://hdl.handle.net/10174/36712

Title: Carbon balance in olive groves of Alentejo under different land management practices
Authors: Rodríguez Sousa, Antonio Alberto
Muñoz-Rojas, José
Brígido, Clarisse
Garcia-Ruiz, R.
Liétor, J.
Prats, Sérgio A.
Keywords: cover crops
herbicides
biodiversity
soil management
sustainability
Issue Date: May-2023
Publisher: Applied Agro-Biotechnology International Meeting
Citation: Rodríguez Sousa A.A., Muñoz-Rojas J., Brígido C., Garcia-Ruiz, R., Liétor J., Prats S. Carbon balance in olive groves of Alentejo under different land management practices. Applied Agro-Biotechnology International Meeting, Beja, Portugal. May 30th, 2023
Abstract: Rural landscapes in Alentejo (Portugal) have changed greatly during the last 15 years, largely due to the expansion and technological intensification of olive groves. The application of agrochemicals (fertilizers and herbicides) along with crop intensification (increasing tree density) likely affect the C balance of these groves. Hereby we assess the C contents of different farming system components and flows affecting the farm, tree and soil C balances during one hydrologic year. Seven olive groves were selected with different soil management practices and production models, including organic vs integrated, as well as contrasting tree densities, 100, 300 and more than 1000 trees per hectare. The annual C inflows comprise the C which accumulates annually in the trees, olive leaves/flowers, tree pruning, olive fruits and cover crop biomass, and also the inflow due to organic fertilizer applications, whereas annual C outflows comprise harvested olive fruits plus olive leaves, soil erosion and soil CO2 emissions. Preliminary results show that C balances are mostly positive mainly due to the accumulation of C in the tree permanent structure. Some of the farms showed negative farm C balances, indicating that more C was lost than entered. This was the case mainly in the farms which applied herbicide and, consequently, exhibited both lower annual CO2 entries in the biomass of cover crops, and higher annual C erosion losses. Results indicate that: i) olive cropping contributes to climate change mitigation, and ii) there is a great potential to enlarge this contribution by, for instance, reducing herbicide application to allow positive C balances in the olive grove.
URI: http://hdl.handle.net/10174/36712
Type: lecture
Appears in Collections:MED - Comunicações - Em Congressos Científicos Internacionais

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