Abstract
Simultaneous reduction of biodiversity and forage nutritive value after grazing abandonment represents a critical agroecological problem observed in temperate mountain grasslands. However, how both processes affect each other after the exclusion of large grazers is not well understood. To address this knowledge gap, we used four Atlantic grassland sites in the Aralar masif (northern Iberian Peninsula) to ask whether floristic composition mediates change in forage nutritive quality after grazing exclusion, and, if so, how much of the effect on forage quality is mediated. To examine the effects of grazing exclusion on forage quality and floristic composition a repeated-measures (2005–10) randomized complete block experiment was used. Then, the direct effects of grazing exclusion on forage quality were disentangled from the indirect effects mediated by concurrent change in floristic composition. Grazing exclusion deteriorated forage mineral content, phosphorus content, neutral detergent fiber and, especially, crude protein and enzymatic digestibility. Concurrent floristic change mediated change in crude protein (80%), enzymatic digestibility (55%) and forage content in calcium (31%). Our study shows that plant diversity and forage quality are intimately linked features of Atlantic mountain grasslands and highlights the importance of preserving leguminous and dicotyledonous species to maintain the nutritive value of these grasslands.
Highlights
Received: 14 November 2020Accepted: 22 December 2020Published: 24 December 2020Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.license.Atlantic and Pyrenean mountain grasslands located below 2000 m.a.s.l., preserved by extensive multispecific livestock grazing in local transhumance, are among the most biodiverse habitats in Europe [1]
This study aims at addressing this knowledge gap by using the results of a repeatedmeasurements (2005–2010) randomized complete block design experiment (RCBD) implemented to test for the effects of ungulate grazing exclusion, via experimental fencing, on both forage nutritive quality and species composition
Exploratory data analysis (Supplementary Tables S1 and S2 and Figure S2) showed that most forage quality variables were sufficiently symmetrical for linear modeling purposes; besides, they were significantly correlated among them, though, in general terms, not strongly correlated
Summary
Received: 14 November 2020Accepted: 22 December 2020Published: 24 December 2020Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.license (https://creativecommons.org/licenses/by/4.0/).Atlantic and Pyrenean mountain grasslands located below 2000 m.a.s.l. (meters above sea level), preserved by extensive multispecific (sheep, cattle, horses) livestock grazing in local transhumance, are among the most biodiverse habitats in Europe [1]. Decreasing plant diversity in these grasslands might cause negative consequences on ecosystem functioning, stability, and services [2,3]. Many studies have reported that grazing contributes the maintenance of several ecosystem functions and services, especially in historically grazed temperate grasslands; among others, landscape heterogeneity [5], suitable habitat for wild vertebrates [6], plant diversity [7], forage quality [8,9,10], soil microbial activity [11], nutrient cycling [12,13,14], pollinator networks [15] and invertebrate diversity [16,17]. In addition to being a reservoir of biodiversity, semi-natural managed grasslands are an essential food resource for herbivores and prevent the consumption of supplementary feed (and the consequent economic cost) during the growing season (which could last from four to six months), contributing to the sustainability of the grazing system [18]
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