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当今人类正面临着严峻的挑战。社会高度发展,人口急剧增加,导致人均占有耕地面积减少,解决温饱问题已经成为人类生存与发展的关键所在。目前,传统的农业增产措施尽管已经取得了相当大的成效,但却过多地依赖于使用化学肥料,进而导致环境污染加剧,农作物品质降低。寻求一种既经济实用,又能促进作物增产和品质改善,同时又不造成生态环境破坏的新技术是摆在农业专家面前的一个重大难题。我们提出的包括光生物学在内的农业物理新技术为解决此问题展现了新的前景。该技术所研究和开发的对象是生物资源可循环的生物体及太阳能资源的利用。此外,该技术对解决粮食、环境和健康等困扰人类的问题能够发挥出重要的作用。几年来的实践证明,该技术已经无可争辩地显露出广阔的发展前景。
Nowadays mankind is facing a serious challenge. A highly developed society and a sharp increase in population have led to a decrease in the arable land per capita and the solution to the problem of food and clothing has become the key to the survival and development of mankind. At present, the traditional measures for increasing agricultural output have achieved considerable results but have relied too much on the use of chemical fertilizers, resulting in more environmental pollution and lower quality of crops. It is a major challenge for agricultural experts to find a new technology that is both economical and practical and can promote crop yield and quality improvement without damaging the ecological environment. Our proposed new agricultural physics including photobiology has shown a new prospect for solving this problem. The object of research and development of this technology is the utilization of bio-recyclable biomass and solar energy resources. In addition, the technology can play an important role in solving problems that plague humankind, such as food, environment and health. Practice over the past few years has proved that this technology has undoubtedly revealed a broad development prospect.