Shoot and Root Decomposition from Different Cropping Systems Under Semiarid Mediterranean Conditions

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Grant support

Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. This research was supported by the Ministry of Science and Innovation (MICINN) of Spain (ref: AGL2017-84529-C3-1-R). Irene Martin Brull was awarded a PhD fellowship by MICINN (ref: PRE2018-086334).

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Franco-Luesma, SamuelAutor o Coautor

8 de septiembre de 2024

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Artículo

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Publicado en:Journal Of Soil Science And Plant Nutrition. 24 (3): 4059-4072 - 2024-07-29 24(3), DOI: 10.1007/s42729-024-01646-8

Autores: Martin-Brull, Irene; Cantero-Martinez, Carlos; Franco-Luesma, Samuel; Lafuente, Victoria; Alvaro-Fuentes, Jorge

Afiliaciones

Spanish Res Council CSIC, Soil & Water Dept, Expt Stn Aula EEAD, Ave Montanana 1005, Zaragoza 50059, Spain - Autor o Coautor

Univ Lleida UdL, Agrotecnio Ctr, Crop & Forest Sci Dept, CSIC,Associated Unit,EEAD, Alcalde Rovira Roure Ave 191, Lleida 25198, Spain - Autor o Coautor

Resumen

Improving the management of crop residues is essential for water and soil conservation and for increasing soil carbon (C) and nitrogen (N) levels in dryland agroecosystems. The main objective of the study was to evaluate the decomposition dynamics and C and N released from crop residues from different cropping systems under semiarid Mediterranean conditions. A litterbag experiment was conducted from July of 2020 to June of 2021 to examine the shoot and root decomposition dynamics of different cropping systems; the following systems were selected: V(B), vetch (Vicia sativa) residue decomposition in a barley crop; B(V), barley (Hordeum vulgare L.) residue decomposition in a vetch crop; P(B), pea (Pisum sativum) residue decomposition in a barley crop; B(P), barley residue decomposition in a pea crop; and B(B), barley residue decomposition in a barley crop. After 48 weeks of decomposition, a 45% and 60% of residues mass remaining (MR) was found corresponding to vetch and pea shoot residues respectively, whilst barley MR ranged 77-87% depending on the cropping system. In root residues, the mass decay from legume residues (40-45%) was higher compared to barley residues (17-29%). Exponential decay and linear models explained the residue decomposition observed in our study conditions. Residues C to N ratio and edaphoclimatic conditions played a major role controlling the decomposition. Residue decomposition and C and N release dynamics from different crop residues need to be considered for a transition to more sustainable agroecosystems under Mediterranean semiarid conditions.

Palabras clave

BarleyBiomassCarbonoChemical-compositionConservación de aguasConservación de suelosCrop residuesCrop rotationCrop rotationsCultivo de cerealesCultivos de cerealesDecay exponential modelDryland agroecosystemsDynamicsLegumesNitrogen releaseNitrógenoResiduesResiduos de cosechasRotationSoilTillageWheat-strawYield

Indicios de calidad

Impacto bibliométrico. Análisis de la aportación y canal de difusión

El trabajo ha sido publicado en la revista Journal Of Soil Science And Plant Nutrition debido a la progresión y el buen impacto que ha alcanzado en los últimos años, según la agencia WoS (JCR), se ha convertido en una referencia en su campo. En el año de publicación del trabajo, 2024 aún no existen indicios calculados, pero en 2023, se encontraba en la posición 154/358, consiguiendo con ello situarse como revista Q1 (Primer Cuartil), en la categoría Environmental Sciences.

2025-07-06: