About Planting Chinese herbal medicine under photovoltaic panels
B. chinense in the APV increased its light use efficiency, photosynthetic rate, and root biomass by increasing its height, electron transfer flux, and up-regulating a photosystem I protein (PsaA). M. sativa in the APV allocated more energy to photochemical reactions to improve photosynthetic capacity.
B. chinense in the APV increased its light use efficiency, photosynthetic rate, and root biomass by increasing its height, electron transfer flux, and up-regulating a photosystem I protein (PsaA). M. sativa in the APV allocated more energy to photochemical reactions to improve photosynthetic capacity.
To provide insights, we compared agrophotovoltaic and traditional ecosystems to explore the economic feasibility of planting Bupleurum chinense (B. chinense) and Medicago sativa (M. sativa) from the perspectives of light utilization, photosynthetic responses, and land use.
The cultivation and planting method for interplanting traditional Chinese medicinal materials under photovoltaic comprises the following steps: s1, installing a photovoltaic panel at a.
The test proves that the system can effectively improve the cultivation and management technology of traditional Chinese medicines, and provide certain reference experience for the development of intelligent and data-oriented production in various industries.
For Chinese herbal medicine plants, climate factors are closely related to the distribution of prioritized planting areas (Sun et al., 2020). Among the many climatic factors that affect the growth and development of T. chinense, only a few key factors dominate the distribution process.
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6 FAQs about [Planting Chinese herbal medicine under photovoltaic panels]
How climatic factors affect the distribution of Chinese herbal medicine plants?
Climatic space for T. chinense For Chinese herbal medicine plants, climate factors are closely related to the distribution of prioritized planting areas ( Sun et al., 2020 ). Among the many climatic factors that affect the growth and development of T. chinense, only a few key factors dominate the distribution process.
How to promote scientific fertilization in the cultivation of Chinese medicinal materials?
It is proposed measures based on the characteristics of soil fertilization, the growth and development characteristics of Chinese medicinal materials as the core, and the industrial planting model as the carrier to promote scientific fertilization in the cultivation of Chinese medicinal materials.
Can Chinese medicinal herbs be cultivated under forest ecosystems?
3. Mechanism of cultivation practice for Chinese medicinal herbs under forest Without chemical fertilizers and pesticides,P. notoginseng has been successfully cultivated in forest ecosystems. It was based on the principle of biodiversity for pest control.
How can Chinese medicinal herbs be produced without chemical fertilizer?
Aninnovative cultivation technique for Chinese medicinal herbs had been practiced in China, which led a new road for medicinal herbs production without input of chemical fertilizer and chemical pesticides. The organic practice was based on the principle of biodiversity for pest control. An example of Panax notoginseng (Burk.)
Should T chinense be planted in the future?
At the same time, the prioritized planting areas for medicinal plant T. chinense in the future have been scientifically predicted and evaluated, which has important guiding significance for the rational distribution of traditional Chinese medicinal materials production, scientific introduction and planting bases construction.
How important are medicinal plant resources in Chinese medicine?
Meanwhile, medicinal plant resources are the most important material basis for developing the Chinese medicine industry, accounting for more than 90% of traditional Chinese medicine resources in types and amounts ( Xu and Yang, 2009 ). Thesium chinense Turcz.
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