Spontaneous plants improve the inter-row soil fertility in a citrus orchard but nitrogen lacks to boost organic carbon
Autor: | Fernando Visconti, Enrique Peiró, Carlos Baixauli, José Miguel de Paz |
---|---|
Přispěvatelé: | European Agricultural Fund for Rural Development, Generalitat Valenciana |
Rok vydání: | 2022 |
Předmět: |
Carbon sequestration
Enzymatic activity Renewable Energy Sustainability and the Environment Cover crops Hydraulic conductivity F08 Cropping patterns and systems F07 Soil cultivation Hordeum murinum H60 Weeds Soil quality Bulk density Bulk density (soil) soil quality cover crops enzymatic activity CO2 emission Mediterranean climate carbon sequestration bulk density hydraulic conductivity P35 Soil fertility P33 Soil chemistry and physics Ecology Evolution Behavior and Systematics General Environmental Science |
Zdroj: | electronico Environments; Volume 9; Issue 12; Pages: 151 |
Popis: | The inter-row soils in conventionally run citrus orchards in Eastern Spain lose fertility, either physically, chemically, or biologically, as a consequence of machinery traffic and the use of herbicides. In order to regain inter-row soil fertility, two grass-cover management alternatives to the commonly used herbicide-kept bare management, namely, spontaneous plants and fescue, were established and left for four years until their effects on several physical, chemical, and biological parameters were monitored for two years more. The fescue ground cover exhibited lower average and maximum soil temperatures due to higher evapotranspiration rates but also higher annual soil water content on average and, additionally, higher rhizodeposition. Despite the fact that these new beneficial conditions helped enhance the soil’s biological fertility under fescue, the physical or chemical fertilities did not improve and neither did the organic carbon (SOC). The spontaneous plants also enhanced the biological fertility, but in this case, beneficial conditions were reflected by improvements in the chemical fertility, particularly the exchangeable potassium, and in the physical fertility by increasing the surface hydraulic conductivity and decreasing the bulk density. In the inter-rows of this citrus orchard, a seeded grass cover does not seem able to provide any soil fertility enhancement in comparison to a spontaneous one; rather the opposite. However, a lack of natural or man-driven nitrogen inputs poses a constraint to SOC gains. For this aim, the annual surface application of organic nitrogen-rich materials or even better, the fostering of N-fixing organisms would be recommended. This research was funded by the European Rural Development Fund (EAFRD), grant numbers AG_COOP_A/2018/036 and AG_COOP_A/2021/015. The participation of Enrique Peiró was funded by the Operative Program of the European Social Fund of the Valencian Community 2014–2020 and the IVIA through a specialization scholarship. |
Databáze: | OpenAIRE |
Externí odkaz: |