Mammal traits and soil biogeochemistry: Functional diversity relates to composition of soil organic matter

• Published in: Ecology and evolution Vol. 13; no. 8; pp. e10392 - n/a
• Main Authors: Losada, María, Sobral, Mar, Silvius, Kirsten M., Varela, Sara, Martínez Cortizas, Antonio M., Fragoso, José M. V.
• Format: Journal Article
• Language: English
• Published: England John Wiley & Sons, Inc 01.08.2023; John Wiley and Sons Inc; Wiley
• Subjects: Accumulation; Animals; Bioaccumulation; Biodiversity; biogeochemical cycles; Biogeochemistry; Carbon; Carbon sequestration; Carbonyl compounds; Carbonyls; Composition; Decomposition; Divergence; Ecosystem Ecology; ecosystem functioning; functional diversity; Herbivores; mammal traits; Mammals; Organic matter; Organic soils; Soil organic matter; soil organic matter composition; Soils; SOM recalcitrance; Topsoil; tropical soils; Zoology; Guyana; functional diversity; soil organic matter composition; tropical soils; ecosystem functioning; SOM recalcitrance; biogeochemical cycles; mammal traits
• ISSN: 2045-7758; 2045-7758
• DOI: 10.1002/ece3.10392

Mammal diversity affects carbon concentration in Amazonian soils. It is known that some species traits determine carbon accumulation in organisms (e.g., size and longevity), and are also related to feeding strategies, thus linking species traits to the type of organic remains that are incorporated into the soil. Trait diversity in mammal assemblages – that is, its functional diversity – may therefore constitute another mechanism linking biodiversity to soil organic matter (SOM) accumulation. To address this hypothesis, we analyzed across 83 mammal assemblages in the Amazon biome (Guyana), the elemental (by ED‐XRF and CNH analysis) and molecular (FTIR‐ATR) composition of SOM of topsoils (401 samples) and trait diversity (functional richness, evenness, and divergence) for each mammal assemblage. Lower mammal functional richness but higher functional divergence were related to higher content of carbonyl and aliphatic SOM, potentially affecting SOM recalcitrance. Our results might allow the design of biodiversity management plans that consider the effect of mammal traits on carbon sequestration and accumulation in soils. Mammal diversity affects carbon concentration in soils, but the diversity of traits in mammal assemblages – that is, its functional diversity – may constitute another mechanism linking biodiversity to soil organic matter (SOM) accumulation. We found that lower mammal functional richness but higher functional divergence increases the content of carbonyl and aliphatic SOM, potentially affecting SOM recalcitrance. Our results might allow the design of biodiversity management plans that consider the effect of mammal traits on carbon sequestration and accumulation in soils.