4.5 Article

Plant functional traits under cattle grazing and fallow age scenarios in a tropical dry forest of Northwestern Mexico

Journal

BASIC AND APPLIED ECOLOGY
Volume 64, Issue -, Pages 30-44

Publisher

ELSEVIER GMBH
DOI: 10.1016/j.baae.2022.06.006

Keywords

Plant functional traits; Management; Secondary succession; Soil nutrients; Alamos tropical dry forest

Categories

Funding

  1. Coordinacion de la Investigacion Cientifica-Universidad Michoacana de San Nicolas de Hidalgo [4687787]
  2. San Diego Zoo Wildlife Alliance Postdoctoral Fellowship Program

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This study investigated the effects of cattle grazing and fallow age on plant functional traits and soil nutrients in tropical dry forests. The results showed that fallow age had a greater impact on plant functional traits than cattle grazing, with early succession associated with water conservation traits and late succession associated with sunlight conservation traits. Cattle grazing influenced defensive functional traits of plants. Additionally, cattle exclusion had a positive impact on soil nutrition.
Evaluating plant functional traits helps to understand how plants respond to changing environmental conditions and resource availability associated with disturbance events. Livestock production is one of the primary drivers of tropical forest loss and degradation. Livestock alter environmental conditions within the forest by grazing, trampling and nutrient inputs, which in turn can influence species composition and functional traits of species. Understanding how livestock influence functional traits along a successional gradient is poorly understood. Here, we studied the effect of cattle grazing and fallow age on plant functional traits and soil nutrients in secondary and old-growth tropical dry forests. We analyzed plant functional traits of the most important species in successional and old-growth forest communities in both cattle present and cattle excluded plots. Our results showed the effects of cattle grazing and fallow age on plant functional traits, with fallow age explaining more variation than cattle grazing. In early succession, functional traits were associated with water conservation (thicker leaves, lower specific leaf area), and in later successional they were linked with sunlight conservation (larger height, higher specific leaf area). The presence of large fruits and seeds in advanced successional sites suggests high resource availability, which may help plants to successfully reproduce. Moreover, under cattle grazing some functional traits are associated with herbivory defense (high foliar dry weight and thick leaves). Even though N and C increased as succession advanced, the sites with cattle grazing had higher NH4 and NO3 concentrations as a result of fecal deposition. Plant functional traits responded to fallow age than to cattle grazing. Our study showed that cattle exclusion, as a management and biodiversity conservation strategy, contributes positively to soil nutrition. Thus, fallow age and cattle exclusion facilitate soil recovery and allows establishing species with suitable functional attributes for overcoming environmental filters in abandoned cattle fields. (C) 2022 The Authors. Published by Elsevier GmbH on behalf of Gesellschaft fur Okologie.

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