Intensive grazing alters the diversity, composition and structure of plant-pollinator interaction networks in Central European grasslands.

Demetra Rakosy,Wiktoria Rojek,Katarzyna Pochrząst,Valentin Ştefan,Arkadiusz Nowak,Magdalena Cielniak,Elena Motivans,Anna Sobieraj-Betlińska,Reinart Feldmann,Costanza Geppert,Elisabeth Kühn,Amparo Lázaro,Kevin Baumann,Tiffany Marie Knight,Anita Grossmann,Anika Kirstin Gathof,Sebastian Świerszcz,Neeraja Venkataraman

doi:10.1371/journal.pone.0263576

Abstract

Complex socio-economic, political and demographic factors have driven the increased conversion of Europe’s semi-natural grasslands to intensive pastures. This trend is particularly strong in some of the most biodiverse regions of the continent, such as Central and Eastern Europe. Intensive grazing is known to decrease species diversity and alter the composition of plant and insect communities. Comparatively little is known, however, about how intensive grazing influences plant functional traits related to pollination and the structure of plant-pollinator interactions. In traditional hay meadows and intensive pastures in Central Europe, we contrasted the taxonomic and functional group diversity and composition, the structure of plant-pollinator interactions and the roles of individual species in networks. We found mostly lower taxonomic and functional diversity of plants and insects in intensive pastures, as well as strong compositional differences among the two grassland management types. Intensive pastures were dominated by a single plant with a specialized flower structure that is only accessible to a few pollinator groups. As a result, intensive pastures have lower diversity and specificity of interactions, higher amount of resource overlap, more uniform interaction strength and lower network modularity. These findings stand in contrast to studies in which plants with more generalized flower traits dominated pastures. Our results thus highlight the importance of the functional traits of dominant species in mediating the consequences of intensive pasture management on plant-pollinator networks. These findings could further contribute to strategies aimed at mitigating the impact of intensive grazing on plant and pollinator communities.

Highlights

Europe’s diverse semi-natural grasslands are being reshaped by intensive anthropogenic change [1, 2]
In contrast to traditional hay meadows, intensive pasture management reduces the taxonomic and functional diversity of pollinating insects and strongly shifts community composition towards the dominance of a single plant species with specialized floral traits
Our results suggest that the response of plant-pollinator networks to intensive grazing could depend on the functional traits of the few dominant species adapted to permanent pastures

Summary

Introduction

Europe’s diverse semi-natural grasslands are being reshaped by intensive anthropogenic change [1, 2]. Almost all European countries report a decline in the area covered by semi-natural grasslands and an associated loss of biodiversity [1, 3, 4]. This has led to increasing concern that European grasslands will not be able to maintain essential ecosystem services, such as pollination [5, 6]. Plant-pollinator interaction networks quantify the frequency of pairwise interactions between plants and pollinators [11], their structure being shaped by the diversity, abundance and composition of both plants and pollinators [11]. Quantifying how plant-pollinator networks are altered by anthropogenic change is key to understanding and predicting shifts in interaction structure and their consequences for grassland ecosystem services

Methods

Results

Discussion

Conclusion