Dynamics of leaf litter and soil respiration in a complex multistrata agroforestry system, Pernambuco, Brazil

Phelipe Manoel Oller Costa (), Marina Alessandra Gomes Araújo, Cristina Maria Souza-Motta and Elaine Malosso
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Phelipe Manoel Oller Costa: Universidade Federal de Pernambuco (UFPE)
Marina Alessandra Gomes Araújo: Universidade Federal de Pernambuco (UFPE)
Cristina Maria Souza-Motta: Universidade Federal de Pernambuco (UFPE)
Elaine Malosso: Universidade Federal de Pernambuco (UFPE)

Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, 2017, vol. 19, issue 4, No 4, 1189-1203

Abstract: Abstract High litter inputs in agroforestry systems contribute to soil microbial activity, soil fertility and productivity. Considering that the cycling of organic matter is essential to the maintenance of physical–chemical and microbiological properties of the soil, the aims of this work were to estimate the production, accumulation and decomposition of litter, and assess soil microbial respiration in a complex multistrata agroforestry system located in the north-east of Brazil. This agroforestry system has three strata formed by forest and fruit trees and species of multiple uses. During 3 years (2011–2013), leaf litter was sampled monthly to account for litterfall and quarterly to account for litter accumulation. The rates of litter decomposition were estimated using the ratio produced-to-accumulated litter, and the correlation between litter fall and rainfall was calculated. Precipitation data were provided by the water and climate agency of Pernambuco (APAC). Soil samples (0–15 cm) were also taken quarterly, simultaneously with the litter accumulation samples, and soil microbial respiration was assessed using the capture, by a KOH solution, of the evolved CO2. The annual production of leaf litter was stable in the 3 years of study in this agroforestry system, and the monthly input of litter to the soil was influenced by rainfall, being higher in the dry seasons. The accumulated litter on the ground was constant, as was microbial activity (respiration) through time. The estimated litter decomposition rates were 1.49 (first year), 1.33 (second year) and 1.42 (third year), being considered rapid rates of decomposition. This guarantees (to the farmer) that this system is capable of maintaining soil fertility and eliminates the need for chemical fertilizers.

Keywords: Decomposition rate; Organic matter dynamics; Soil CO2 evolution (search for similar items in EconPapers)
Date: 2017
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DOI: 10.1007/s10668-016-9789-4

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