supplementary pollination

简明释义

辅助授粉

英英释义

例句

1.In greenhouse settings, supplementary pollination is crucial for maximizing production.

在温室环境中，补充授粉对最大化生产至关重要。

2.Farmers often use supplementary pollination to increase fruit yield in orchards.

农民经常使用补充授粉来提高果园的产量。

3.The study focused on the effects of supplementary pollination on pollinator behavior.

该研究集中在补充授粉对授粉者行为的影响。

4.Beekeepers provide hives to farmers to facilitate supplementary pollination during blooming seasons.

养蜂人向农民提供蜂箱，以促进开花季节的补充授粉。

5.Research shows that supplementary pollination can significantly improve seed set in certain crops.

研究表明，补充授粉可以显著改善某些作物的种子结实率。

作文

Pollination is a critical process in the lifecycle of flowering plants, facilitating the transfer of pollen from the male parts of a flower to the female parts. This natural phenomenon is essential for the production of fruits and seeds, which in turn supports biodiversity and food security. However, with the decline in natural pollinator populations due to habitat loss, pesticide use, and climate change, alternative methods of ensuring effective pollination have become increasingly important. One such method is known as supplementary pollination, or 补充授粉 in Chinese. This process involves the intentional introduction of additional pollination agents, such as bees or human-assisted techniques, to enhance the reproductive success of plants.The concept of supplementary pollination is particularly relevant in agricultural settings where crop yields are crucial for feeding the growing global population. Many crops, such as tomatoes and cucumbers, can benefit significantly from this practice. For instance, studies have shown that when farmers employ supplementary pollination methods, they can achieve higher fruit set rates and increased overall yield. This is especially vital in regions where natural pollinator populations are insufficient to meet the demands of agricultural production.Moreover, supplementary pollination not only aids in maximizing crop yields but also helps to ensure genetic diversity within plant populations. By introducing various pollinators, farmers can facilitate cross-pollination, which is essential for producing hybrid varieties that may be more resilient to pests and diseases. This approach aligns with sustainable agricultural practices by reducing dependency on chemical inputs and enhancing ecosystem health.In addition to agriculture, supplementary pollination plays a significant role in conservation efforts. Many wild plant species rely on specific pollinators for reproduction. When these pollinators are in decline, implementing supplementary pollination strategies can help maintain plant populations and support ecosystem stability. Conservationists are increasingly recognizing the importance of this technique as part of broader efforts to restore habitats and protect endangered species.Despite its benefits, supplementary pollination is not without challenges. The effectiveness of this method can vary depending on factors such as the type of plants involved, the timing of pollination, and the characteristics of the pollinators used. Furthermore, there is a need for research to better understand the best practices for implementing supplementary pollination effectively. Farmers and researchers must collaborate to develop guidelines that optimize the use of supplementary pollinators while considering the ecological impacts of introducing non-native species.In conclusion, supplementary pollination is an invaluable tool in both agriculture and conservation, offering solutions to the pressing challenges posed by declining natural pollinator populations. By understanding and utilizing this technique, we can enhance food production, support biodiversity, and contribute to the resilience of ecosystems. As we face the dual threats of climate change and habitat degradation, embracing innovative practices like supplementary pollination will be crucial in ensuring a sustainable future for our planet.

授粉是开花植物生命周期中的一个关键过程，它促进花朵雄性部分的花粉转移到雌性部分。这一自然现象对水果和种子的生产至关重要，进而支持生物多样性和粮食安全。然而，由于栖息地丧失、农药使用和气候变化，自然授粉者数量的下降使得确保有效授粉的替代方法变得越来越重要。其中一种方法被称为补充授粉。这一过程涉及故意引入额外的授粉媒介，如蜜蜂或人工辅助技术，以增强植物的繁殖成功。补充授粉的概念在农业环境中尤为相关，因为作物产量对于满足不断增长的全球人口至关重要。许多作物，如番茄和黄瓜，能显著受益于这一做法。例如，研究表明，当农民采用补充授粉方法时，他们可以实现更高的果实设置率和总体产量的增加。这在自然授粉者数量不足以满足农业生产需求的地区尤其重要。此外，补充授粉不仅有助于最大化作物产量，还帮助确保植物种群的遗传多样性。通过引入各种授粉者，农民可以促进异交授粉，这对生产可能对害虫和疾病更具抵抗力的杂交品种至关重要。这种方法与可持续农业实践相一致，通过减少对化学投入的依赖，增强生态系统健康。除了农业，补充授粉在保护工作中也发挥着重要作用。许多野生植物物种依赖特定的授粉者进行繁殖。当这些授粉者数量减少时，实施补充授粉策略可以帮助维持植物种群并支持生态系统的稳定。保护主义者越来越认识到这一技术在更广泛的恢复栖息地和保护濒危物种努力中的重要性。尽管有其好处，补充授粉并非没有挑战。这种方法的有效性可能因涉及植物的类型、授粉的时机以及所用授粉者的特性而异。此外，需要进行研究以更好地理解如何有效实施补充授粉的最佳实践。农民和研究人员必须合作，制定优化补充授粉者使用的指南，同时考虑引入外来物种的生态影响。总之，补充授粉在农业和保护中都是一种宝贵的工具，为应对自然授粉者数量下降带来的紧迫挑战提供了解决方案。通过理解和利用这一技术，我们可以增强食品生产，支持生物多样性，并为生态系统的韧性做出贡献。在面对气候变化和栖息地退化的双重威胁时，采用创新实践如补充授粉将对确保我们星球的可持续未来至关重要。