About Can Coptis chinensis be planted under photovoltaic panels
Our findings have demonstrated that during leaf expansion, the RO of C. chinensis had lower carbohydrate and P losses under 200 μmol m −2 s −1 compared to plants under 50 μmol m −2 s −1. After rapid leaf expansion, the high light intensity can enhance the photosynthetic capacity and sink to the source transition rate of ILs, thereby .
Our findings have demonstrated that during leaf expansion, the RO of C. chinensis had lower carbohydrate and P losses under 200 μmol m −2 s −1 compared to plants under 50 μmol m −2 s −1. After rapid leaf expansion, the high light intensity can enhance the photosynthetic capacity and sink to the source transition rate of ILs, thereby .
The main planting modes currently used for the production of Coptis chinensis Franch are under the shade of a manmade scaffold or a natural understory. In this study, we analysed changes in the growth, development, and alkaloids of C. chinensis when grown in a natural understory compared with under a manmade scaffold.
Co-locating solar photovoltaics with vegetation could provide a sustainable solution to meeting growing food and energy demands. However, studies quantifying multiple co-benefits resulting from maintaining vegetation at utility-scale solar power plants are limited. We monitored the microclimate, soil moisture, panel temperature, electricity .
Producing plants under PV panels has been shown to increase land productivity by 35 %–73 %. In addition, an appropriate PV system design and installation, in conjunction with planting, is required to maximize the benefit of co-producing agricultural crops and electricity.
The purpose of this study was to predict the potential distribution of these valuable plants and identify the potential effects of climate change on three Coptis species, using of species distribution modeling (SDM). In this study, we first predict the distribution size variations of the three plant species, under present and future conditions.
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6 FAQs about [Can Coptis chinensis be planted under photovoltaic panels ]
What are the ecological characteristics of Coptis chinensis?
4.2. Ecological characteristics of Coptis herbs The suitable distribution areas for C. chinensis have a typical temperate humid monsoon climate providing cold, humid and concealed climate conditions required for the growth of C. chinensis.
How are Coptis herb distributions predicted based on environmental factors?
Potential Coptis herb distributions were predicted based on environmental factors. Coptis distributions were compared under present and future climate conditions. Annual precipitation range and isothermality dominantly affected distribution. Alkaloid content may affect Coptis species susceptibility and distribution.
How to plant a crop under a fixed PV system?
Crops suitable for planting under fixed PV systems, along with the crop growth parameters, should be identified. Agrivoltaic systems must water the plants on a daily basis. Material corrosion should be monitored since moisture under the solar panel may affect the plant structure.
Can Coptis be grown artificially?
However, suitable climatic conditions have also been predicted in Guangdong and Taiwan for C. chinensis and C. deltoidea and in these regions, artificial cultivation of Coptis could be considered. 4.2. Ecological characteristics of Coptis herbs
Is C chinensis a state-protected plant?
Due to climate change and anthropogenic activities, the distribution areas of C. chinensis are gradually shrinking across China, to the extent that it has been listed as a Grade-II state-protected plant by the central government [ 24, 25, 32 ].
Can solar photovoltaics be co-located with vegetation?
Co-locating solar photovoltaics with vegetation could provide a sustainable solution to meeting growing food and energy demands. However, studies quantifying multiple co-benefits resulting from maintaining vegetation at utility-scale solar power plants are limited.