Department of Biology, Faculty of Philosophy, Sciences and Letters of Ribeirão Preto, University of São Paulo, FFCLRP-USP, Ribeirão Preto, SP, Brazil.
Department of Environmental Sciences, DCAm, Federal University of São Carlos, UFSCar, São Carlos, SP, Brazil.
Oecologia. 2020 Feb;192(2):577-590. doi: 10.1007/s00442-019-04579-7. Epub 2020 Jan 2.
Mutualistic interactions between plants and pollinators play an essential role in the organization and persistence of biodiversity. The structure of interaction networks mediates the resilience of local communities and ecosystem functioning to environmental changes. Hence, network structure conservation may be more critical for maintaining biodiversity and ecological services than the preservation of isolated species in changing landscapes. Here, we intensively surveyed seven 36 km landscapes to empirically investigate the effects of forest loss and landscape configuration on the structure of plant-pollinator networks in understory vegetation of Brazilian Atlantic Forest. Our results indicate that forest loss and isolation affect the structure of the plant-pollinator networks, which were smaller in deforested landscapes, and less specialized as patch isolation increased. Lower nestedness and degree of specialization (H') indicated that the remaining plant and bee species tend to be generalists, and many of the expected specialized interactions in the network were already lost. Because generalist species generate a cohesive interaction core in these networks, these simplified networks might be resistant to loss of peripheral species, but may be susceptible to the extinction of the most generalist species. We suggest that such a network pattern is an outcome of landscapes with a few remaining isolated patches of natural habitat. Our results add a new perspective to studies of plant-pollinator networks in fragmented landscapes, showing that those interaction networks might also be used to indicate how changes in natural habitat affect biodiversity and biotic interactions.
植物与传粉者之间的互利共生关系在生物多样性的组织和维持中起着至关重要的作用。相互作用网络的结构调节着局部社区和生态系统功能对环境变化的恢复力。因此,与在不断变化的景观中保护孤立物种相比,保护网络结构可能对维持生物多样性和生态服务更为关键。在这里,我们深入调查了七个 36 公里的景观,以实证研究森林损失和景观配置对巴西大西洋森林林下植被中植物-传粉者网络结构的影响。我们的结果表明,森林损失和隔离会影响植物-传粉者网络的结构,在森林砍伐的景观中,网络较小,而随着斑块隔离的增加,网络的专业化程度降低。嵌套度和专业化程度(H')较低表明,剩余的植物和蜜蜂物种往往是广域种,网络中许多预期的专门化相互作用已经丢失。由于在这些网络中广域种产生了一个有凝聚力的相互作用核心,因此这些简化的网络可能对周边物种的丧失具有抵抗力,但可能容易受到最广域种的灭绝的影响。我们认为,这种网络模式是由几个剩余的孤立自然栖息地斑块的景观产生的。我们的结果为破碎化景观中植物-传粉者网络的研究增添了新的视角,表明这些相互作用网络也可用于指示自然栖息地的变化如何影响生物多样性和生物相互作用。
