Plant–Pollinator Interactions: Biology, Ecology, Conservation and Future Perspectives

Lakshmi Girish *

Smt. Chandibai Himathmal Mansukhani College, Maharashtra, India.

*Author to whom correspondence should be addressed.


Abstract

Pollination is a fundamental ecological process that supports angiosperm reproduction, biodiversity maintenance, ecosystem stability, agricultural productivity, and food security. Plant–pollinator interactions have evolved through long-term ecological and evolutionary relationships in which plants provide floral resources such as nectar, pollen, oils, and fragrances, while pollinators facilitate pollen transfer and reproductive success. Approximately 87.5% of flowering plant species and 35% of global crop production are supported by animal-mediated pollination, highlighting the ecological and economic significance of these interactions. This review examines the biological and ecological basis of plant–pollinator relationships, including floral traits, pollination syndromes, pollinator diversity, mutualistic networks, and the role of pollination in plant reproductive success. It also discusses major pressures affecting pollination systems, including climate change, habitat fragmentation, pesticide use, agricultural intensification, invasive species, pathogens, and environmental degradation. These pressures may disrupt flowering time, pollinator activity, species distributions, and plant–pollinator synchrony, thereby reducing pollination efficiency and reproductive output. The review further outlines conservation approaches such as habitat restoration, pollinator-friendly farming, integrated pest management, landscape connectivity, urban pollinator conservation, climate-smart strategies, policy support, and public participation. Emerging tools, including molecular ecology, DNA barcoding, remote sensing, geographic information systems, artificial intelligence, machine learning, ecological modelling, and citizen science, offer new opportunities for monitoring and conserving pollination systems. Overall, the review emphasises that protecting plant–pollinator interactions requires an integrated approach combining ecological knowledge, sustainable agriculture, conservation planning, technological innovation, and community involvement.

Keywords: Plant–pollinator interactions, pollination ecology, pollinator diversity, biodiversity conservation, climate change, ecosystem resilience, sustainable agriculture, food security, ecological modelling, citizen science.


How to Cite

Girish, Lakshmi. 2026. “Plant–Pollinator Interactions: Biology, Ecology, Conservation and Future Perspectives”. Asian Journal of Environment & Ecology 25 (7):276-91. https://doi.org/10.9734/ajee/2026/v25i7975.

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