Impacts of deforestation on plant-pollinator networks assessed using an agent based model

Plant-pollinator networks have been widely used to understand the ecology of mutualistic interactions between plants and animals. While a number of general patterns have been identified, the mechanisms underlying the structure of plant-pollinator networks are poorly understood. Here we present an ag...

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Veröffentlicht in:	PloS one 2018-12, Vol.13 (12), p.e0209406-e0209406
Hauptverfasser:	Newton, Adrian C, Boscolo, Danilo, Ferreira, Patrícia A, Lopes, Luciano E, Evans, Paul
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Sprache:	eng
Schlagworte:	Agent-based models Animals Bees Bees - physiology Biodiversity Biology Biology and Life Sciences Computer and Information Sciences Computer simulation Conservation of Natural Resources Deforestation Deforestation effects Ecology Ecology and Environmental Sciences Ecosystem Ecosystem biology Ecosystems Flowers & plants Forests Habitats Humans Networks Plant Physiological Phenomena Plant reproduction Pollination Pollination - physiology Pollinators Specialization Symbiosis - physiology Systems Analysis
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creator	Newton, Adrian C Boscolo, Danilo Ferreira, Patrícia A Lopes, Luciano E Evans, Paul
description	Plant-pollinator networks have been widely used to understand the ecology of mutualistic interactions between plants and animals. While a number of general patterns have been identified, the mechanisms underlying the structure of plant-pollinator networks are poorly understood. Here we present an agent based model (ABM) that simulates the movement of bees over heterogeneous landscapes and captures pollination events, enabling the influence of landscape pattern on pollination networks to be explored. Using the model, we conducted a series of experiments using virtual landscapes representing a gradient of forest loss and fragmentation. The ABM was able to produce expected trends in network structure, from simulations of interactions between individual plants and pollinators. For example, results indicated an increase in the index of complementary specialization (H2') and a decline in network connectance with increasing forest cover. Furthermore, network nestedness was not associated with the degree of forest cover, but was positively related to forest patch size, further supporting results obtained in the field. This illustrates the potential value of ABMs for exploring the structure and dynamics of plant-pollinator networks, and for understanding the mechanisms that underlie them. We attribute the results obtained primarily to a shift from specialist to generalist pollinators with increasing forest loss, a trend that has been observed in some field situations.
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While a number of general patterns have been identified, the mechanisms underlying the structure of plant-pollinator networks are poorly understood. Here we present an agent based model (ABM) that simulates the movement of bees over heterogeneous landscapes and captures pollination events, enabling the influence of landscape pattern on pollination networks to be explored. Using the model, we conducted a series of experiments using virtual landscapes representing a gradient of forest loss and fragmentation. The ABM was able to produce expected trends in network structure, from simulations of interactions between individual plants and pollinators. For example, results indicated an increase in the index of complementary specialization (H2') and a decline in network connectance with increasing forest cover. Furthermore, network nestedness was not associated with the degree of forest cover, but was positively related to forest patch size, further supporting results obtained in the field. This illustrates the potential value of ABMs for exploring the structure and dynamics of plant-pollinator networks, and for understanding the mechanisms that underlie them. We attribute the results obtained primarily to a shift from specialist to generalist pollinators with increasing forest loss, a trend that has been observed in some field situations.</description><subject>Agent-based models</subject><subject>Animals</subject><subject>Bees</subject><subject>Bees - physiology</subject><subject>Biodiversity</subject><subject>Biology</subject><subject>Biology and Life Sciences</subject><subject>Computer and Information Sciences</subject><subject>Computer simulation</subject><subject>Conservation of Natural Resources</subject><subject>Deforestation</subject><subject>Deforestation effects</subject><subject>Ecology</subject><subject>Ecology and Environmental Sciences</subject><subject>Ecosystem</subject><subject>Ecosystem biology</subject><subject>Ecosystems</subject><subject>Flowers & plants</subject><subject>Forests</subject><subject>Habitats</subject><subject>Humans</subject><subject>Networks</subject><subject>Plant Physiological Phenomena</subject><subject>Plant reproduction</subject><subject>Pollination</subject><subject>Pollination - 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subjects	Agent-based models Animals Bees Bees - physiology Biodiversity Biology Biology and Life Sciences Computer and Information Sciences Computer simulation Conservation of Natural Resources Deforestation Deforestation effects Ecology Ecology and Environmental Sciences Ecosystem Ecosystem biology Ecosystems Flowers & plants Forests Habitats Humans Networks Plant Physiological Phenomena Plant reproduction Pollination Pollination - physiology Pollinators Specialization Symbiosis - physiology Systems Analysis
title	Impacts of deforestation on plant-pollinator networks assessed using an agent based model
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