agriculture ['&agr;k(r)s(k)l(j)u(:)t(r)()], n. 农业;农学;农业区
发音:/ˌ&aːkrəˈsɒl/
用法:通常指对土地、土壤、气候、植物和动物的研究,以及如何更有效地使用这些资源以生产更多食物和原材料的科学。
记忆方法:agri(土地)+culture(文化)→研究土地的文化→农业
例句:Agriculture is the basis of civilization.
翻译:农业是文明的基础。
其他单词发音、用法及记忆方法如下:
1. industry ['&ind(j)s(t)rɪ] ,发音:/ˌ&aɪnˈdɒsɪ/
用法:n. 工业;产业;行业;工业部门;勤劳
记忆方法:in(进入)+dys(坏)+try(尝试)→努力去做好行业→工业
例句:The cotton industry has declined sharply.
翻译:棉花工业急剧下降。
2. farmer ['fɑːmə(r)],发音:/ˌfɑːmə/
用法:n. 农民;农场主;牧场工人
记忆方法:far(远)+mer(先生)→在田地远处耕种的先生→农民
例句:The farmer planted a large number of crops.
翻译:这个农民种了很多庄稼。
3. agriculture ['&æɡrɪk(s)ʃ(ə)n],发音:/ˌ&aːɡrɪˈkʌʃən/
用法:n. 农业;农学;农业区
记忆方法:agri(土地)+culture(文化)→在土地上种植文化→农业
例句:Modern agriculture has made great progress.
翻译:现代农业取得了巨大进步。
以上就是这几个单词的英标、意思、发音、用法及记忆方法的详细解析,希望对您有所帮助。
agricultures相关的物理现象如下:
温室效应。温室效应对农业会产生影响,它会使土壤温度升高,有助于农作物的生长,但温度过高又会导致热浪来袭,引发干旱,对农作物的生长产生不利影响^[2]^。
水分循环。水分在植物体中和土壤中以气态和水滴的形式移动,从而影响植物的生长。水分循环还是土壤温度的重要因素,它会影响土壤的温度和气候条件^[3]^。
此外,农业还会涉及到力学、光学、化学等领域,有很多物理现象,建议查阅相关书籍和文献了解更多信息。
标题:农业管理的未来:创新与可持续发展的融合
Agriculture, the lifeblood of our planet, has always been a crucial aspect of human existence. However, with the increasing demands of a growing global population, the challenges facing agriculture have become increasingly complex. To address these challenges, it is essential to adopt a comprehensive and sustainable management approach that embraces innovation and embraces the use of technology.
Firstly, we must recognize that technology has the potential to revolutionize agriculture. From precision farming methods that use satellite imagery and drone-based monitoring to improve crop yields and reduce environmental impact, to the use of artificial intelligence to predict weather patterns and optimize crop rotation, technology has the ability to transform agriculture. By harnessing these technologies, farmers can increase yields, reduce waste, and improve sustainability.
Moreover, we must embrace a more holistic approach to agriculture management that considers the entire ecosystem. This includes the use of organic methods of farming that reduce the use of synthetic fertilizers and pesticides, while also enhancing biodiversity and soil health. By adopting organic methods, farmers can improve soil fertility, reduce pollution, and increase crop yields while also reducing the environmental impact of agriculture.
Furthermore, we must recognize that sustainable agriculture are not just about production; they are also about social and economic sustainability. By investing in education and training programs that encourage farmers to adopt sustainable practices, we can ensure that agriculture remains profitable and sustainable for future generations.
Finally, we must embrace a more collaborative approach to agriculture management that involves all stakeholders – farmers, government agencies, NGOs, and research institutions – working together to address common challenges. Collaboration can help us identify new solutions, share best practices, and promote sustainable agriculture practices that are beneficial for all.
In conclusion, agriculture management is facing unprecedented challenges that require innovative and sustainable solutions. By embracing technology, adopting organic methods of farming, investing in education and training programs, and collaborating with all stakeholders, we can ensure that agriculture remains profitable and sustainable for future generations. With a commitment to innovation and sustainability, we can create a future where agriculture is not only productive but also environmentally responsible and economically sustainable.