Your search keyword '"L. Tenorio"' showing total 2 results

1. Organic Amendment vs. Mineral Fertilization under Minimum Tillage: Changes in Soil Nutrients, Soil Organic Matter, Biological Properties and Yield after 10 Years

Author

J. L. Tenorio, Diana Martin-Lammerding, Inés Santín-Montanyá, E. Zambrana, José Luis Gabriel, Comunidad de Madrid, Ministerio de Ciencia e Innovación (España), Martin-Lammerding, D [0000-0002-9498-7904], Gabriel, JL [0000-0002-5508-4120], Zambrana, E [0000-0002-9215-3746], Santin-Montanya, I [0000-0003-1978-6560], Tenorio, JL [0000-0001-7596-6676], Martin-Lammerding, D, Gabriel, JL, Zambrana, E, Santin-Montanya, I, and Tenorio, JL

Subjects

Carbon sequestration, Agriculture (General), Plant Science, 010501 environmental sciences, Soil fertility, 01 natural sciences, complex mixtures, S1-972, Minimum tillage, Nutrient, soil conservation, soil fertility, carbon sequestration, sustainable agro-ecosystems, semiarid conditions, 0105 earth and related environmental sciences, Semiarid conditions, Soil organic matter, food and beverages, 04 agricultural and veterinary sciences, Crop rotation, Tillage, Agronomy, Soil conservation, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, Sustainable agro-ecosystems, Food Science

Abstract

Conservation tillage is recognized as a sustainable management practice, however its combination with organic residues application still constitutes a challenge in some areas. A field trial was established in a semiarid agro-ecosystem to study the effects of different crop nutrient sources under minimum tillage (MT). Application of organic amendments at the beginning of a five-year crop rotation (ORG treatment) was evaluated and compared to the control plot where wheat was continuously grown with traditional mineral fertilization (MIN treatment). In addition to wheat yield and biomass, several soil properties were measured (pH, soil nutrients (i.e., Olsen P, exchangeable K, and mineral N), soil organic matter (i.e., C, N, C/N ratio), potentially mineralizable nitrogen, total microbial activity and heavy metals) throughout the 10-year study. The wheat yield was significantly higher under the ORG treatment than under the MIN, although climatic conditions (e.g., rainfall) exerted a great influence too. The organic amendments increased soil nutrients content mainly right after their application but the levels were adequate for the whole crop rotation. Plots under organic amendment application did not accumulate significantly more soil organic matter than those mineral-fertilized, probably due to the low protective capacity of coarse-textured soils. The application of organic amendments under MT resulted in a promising management agro-ecosystem compared to the mineral fertilized because crop nutrients came from organic wastes, no herbicides were applied while the yields were higher., This work was funded by INIA (AT2017-003), the Ministry of Science and Innovation (RTA2017-00006-C03-01, AGL2017-83283-C2-1/2-R), the EJPSoil [CarboSeq] project (which has re ceived funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 862695), the Community of Madrid (AGRISOST-CM S2018/BAA-4330) and European Structural funding 2014-2020 (ERDF y ESF)

Published

2021

2. Organic Amendment vs. Mineral Fertilization under Minimum Tillage: Changes in Soil Nutrients, Soil Organic Matter, Biological Properties and Yield after 10 Years

Author

Diana Martín-Lammerding, José L. Gabriel, Encarnación Zambrana, Inés Santín-Montanyá, and José L. Tenorio

Subjects

soil conservation, soil fertility, carbon sequestration, sustainable agro-ecosystems, semiarid conditions, Agriculture (General), S1-972

Abstract

Conservation tillage is recognized as a sustainable management practice, however its combination with organic residues application still constitutes a challenge in some areas. A field trial was established in a semiarid agro-ecosystem to study the effects of different crop nutrient sources under minimum tillage (MT). Application of organic amendments at the beginning of a five-year crop rotation (ORG treatment) was evaluated and compared to the control plot where wheat was continuously grown with traditional mineral fertilization (MIN treatment). In addition to wheat yield and biomass, several soil properties were measured (pH, soil nutrients (i.e., Olsen P, exchangeable K, and mineral N), soil organic matter (i.e., C, N, C/N ratio), potentially mineralizable nitrogen, total microbial activity and heavy metals) throughout the 10-year study. The wheat yield was significantly higher under the ORG treatment than under the MIN, although climatic conditions (e.g., rainfall) exerted a great influence too. The organic amendments increased soil nutrients content mainly right after their application but the levels were adequate for the whole crop rotation. Plots under organic amendment application did not accumulate significantly more soil organic matter than those mineral-fertilized, probably due to the low protective capacity of coarse-textured soils. The application of organic amendments under MT resulted in a promising management agro-ecosystem compared to the mineral fertilized because crop nutrients came from organic wastes, no herbicides were applied while the yields were higher.

Published

2021