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7 results on '"He, Yong‐Deng"'

4. Floral trait variation across individual plants within a population enhances defense capability to nectar robbing

Author

National Natural Science Foundation of China, Chinese Academy of Sciences, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Universidad de Las Islas Baleares, He, Yong-Deng [0000-0003-0468-1440], Yang, Chun-Feng [0000-0002-0523-5138], Tie, Shuang, He, Yong-Deng, Lázaro, Amparo, Inouye, David W., Guo, You-Hao, Yang, Chun-Feng, National Natural Science Foundation of China, Chinese Academy of Sciences, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Universidad de Las Islas Baleares, He, Yong-Deng [0000-0003-0468-1440], Yang, Chun-Feng [0000-0002-0523-5138], Tie, Shuang, He, Yong-Deng, Lázaro, Amparo, Inouye, David W., Guo, You-Hao, and Yang, Chun-Feng

Abstract

Floral trait variation may help pollinators and nectar robbers identify their target plants and, thus, lead to differential selection pressure for defense capability against floral antagonists. However, the effect of floral trait variation among individuals within a population on multi-dimensional plant-animal interactions has been little explored. We investigated floral trait variation, pollination, and nectar robbing among individual plants in a population of the bumble bee-pollinated plant, Caryopteris divaricata, from which flowers are also robbed by bumble bees with varying intensity across individuals. We measured the variation in corolla tube length, nectar volume and sugar concentration among individual plants, and evaluated whether the variation were recognized by pollinators and robbers. We investigated the influence of nectar robbing on legitimate visitation and seed production per fruit. We found that the primary nectar robber (Bombus nobilis) preferred to forage on plants with long-tubed flowers, which produced less nectar and had lower sugar concentration compared to those with shorter corolla tubes. Individuals with shorter corolla tubes had comparatively lower nectar robbing intensity but higher visitation by legitimate visitors (mainly B. picipes) and higher seed production. Nectar robbing significantly reduced seed production because it decreased pollinator visits. However, neither pollination nor seed production differed between plants with long and short corolla tubes when nectar robbers were excluded. This finding suggests that floral trait variation might not be driven by pollinators. Such variation among individual plants thus allows legitimate visitors and nectar robbers to segregate niches and enhances population defense against nectar robbing in unpredictable conditions.

Published
2023

6. The interplay between scale, pollination niche and floral attractiveness on density-dependent plant-pollinator interactions

Author

National Natural Science Foundation of China, Chinese Academy of Sciences, Traveset, Anna [0000-0002-1816-1334], Bergamo, Pedro J. [0000-0002-4984-4410], Ye, Zhong-Ming, Jin, Xiao-Fang, He, Yong-Deng, Cao, Yu, Zou, Yi, Wang, Qing-Feng, Traveset, Anna, Bergamo, Pedro J., Yang, Chun-Feng, National Natural Science Foundation of China, Chinese Academy of Sciences, Traveset, Anna [0000-0002-1816-1334], Bergamo, Pedro J. [0000-0002-4984-4410], Ye, Zhong-Ming, Jin, Xiao-Fang, He, Yong-Deng, Cao, Yu, Zou, Yi, Wang, Qing-Feng, Traveset, Anna, Bergamo, Pedro J., and Yang, Chun-Feng

Abstract

Pollinators mediate interspecific and intraspecific plant-plant indirect interactions (competition vs. facilitation) via density-dependent processes, potentially shaping the dynamics of plant communities. However, it is still unclear which ecological drivers regulate density-dependent patterns, including scale, pollination niches (i.e., the main pollinator functional group) and floral attractiveness to pollinators. In this study, we conducted three-year field observations in Hengduan Mountains of southwest China. By gathering data for more than 100 animal-pollinated plant species, we quantified the effect (positive vs. negative) of conspecific and heterospecific flower density on pollination at two scales: plot-level (4 m2) and site-level (100-5000 m2). Then, we investigated how pollination niches and floral attractiveness to pollinators (estimated here as average per-flower visitation rates) modulated density-dependent pollination interactions. Pollinator visitation depended on conspecific and heterospecific flower density, with rare plants subjected to interspecific competition at the plot-level and interspecific facilitation at the site-level. Such interspecific competition at the plot-level was stronger for plants pollinated by diverse insects, while interspecific facilitation at the site-level was stronger for bee-pollinated plants. Moreover, we also found stronger positive conspecific density-dependence for plants with lower floral attractiveness at the site-level, meaning that they become more frequently visited when abundant. Our study indicates that the role of pollination in maintaining rare plants and plant diversity depends on the balance of density-dependent processes in species-rich communities. We show here that such balance is modulated by scale, pollination niches and floral attractiveness to pollinators, indicating the context-dependency of diversity maintenance mechanisms.

Published
2023

7. The effects of urbanization on pollinators and pollination: A meta‐analysis.

Author

Liang, Huan, He, Yong‐Deng, Theodorou, Panagiotis, and Yang, Chun‐Feng

Subjects
*POLLINATORS, *POLLINATION, *FLOWERING of plants, *URBANIZATION, *CITIES & towns, *BIODIVERSITY conservation, *SUSTAINABILITY, *PLANT diversity
Abstract

Urbanization is increasing worldwide, with major impacts on biodiversity, species interactions and ecosystem functioning. Pollination is an ecosystem function vital for terrestrial ecosystems and food security; however, the processes underlying the patterns of pollinator diversity and the ecosystem services they provide in cities have seldom been quantified. Here, we perform a comprehensive meta‐analysis of 133 studies examining the effects of urbanization on pollinators and pollination. Our results confirm the widespread negative impacts of urbanization on pollinator richness and abundance, with Lepidoptera being the most affected group. Furthermore, pollinator responses were found to be trait‐specific, with below‐ground nesting and solitary Hymenoptera, and spring flyers more severely affected by urbanization. Meanwhile, cities promote non‐native pollinators, which may exacerbate conservation risks to native species. Surprisingly, despite the negative effects of urbanization on pollinator diversity, pollination service measured as seed set is enhanced in non‐tropical cities likely due to abundant generalists and managed pollinators therein. We emphasize that the richness of local flowering plants could mitigate the negative impacts of urbanization on pollinator diversity. Overall, the results demonstrate the varying magnitudes of multiple moderators on urban pollinators and pollination services and could help guide conservation actions for biodiversity and ecosystem function for a sustainable future. [ABSTRACT FROM AUTHOR]

Published
2023
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