Soil salinity is a serious.Therefore, Salt Tolerance Plant species selection and select local native plant species.
因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
I am mainly responsible for plant design. Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
我主要负责植物设计。因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
Plant Designer: I am mainly responsible for plant design. Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
我主要负责植物设计。因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
Salt tolerance of plant are complex traits controlled by many genes and involved by many metabolize approaches.
植物耐盐性状是一个由多基因控制、涉及多代谢途径的复杂性状。
Plant Designer: Salt Tolerance Plant species selection, and select local native plant species.
项目设计者:植物选择耐盐品种及乡土树种。
This paper reported response of Puccinellia regrowth to soil salinity and salt tolerance limit of the plant.
本文报导了盆栽碱茅草刈割后再生对土壤含盐量的反应和植物再生的耐盐限度。
Further, the gene of the transcription factor is used to transform a plant, thereby improving tolerance against environmental stresses such as low temperature, dehydration, and salt stresses.
另外,将转录因子的基因用于转化植物,从而提高对环境胁迫如低温,脱水,和盐胁迫的耐受性。
Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
Therefore, the research on the mechanism of plant salt-tolerance and breeding for salt-tolerant crops will become an attention research field.
因此植物耐盐的机理的研究和耐盐植物的培育将成为相关学科研究的热点。
Studying the salt-tolerance mechanism of euhalophytes and improving plant ability of salt tolerance by genetic engineering breeding has become one of the central issues.
研究真盐生植物的耐盐机理、利用遗传王程育种提高植物的耐盐性已成为当前的研究热点之一。
The identification system based on salt tolerant efficiency was established with combination of quality and quantity to evaluate plant salt tolerance.
耐盐系数为指标的大豆耐盐鉴定体系实现了植物耐盐评价的质和量的统一。
Transformed plant had clearly demonstrated a strong salt tolerance.
说明转化苗已经明显表现出了较强的耐盐性。
Abiotic stress always cause great threat on plant growth and huge yield loss when climate is serious. So its very important to reveal the mechanism of plant resistant or tolerance to salt stress.
在并不适合植物生长发育的外界环境条件即非生物胁迫下,会影响植物的生长和发育,严重时可造成作物大减产甚至绝收。
Our results showed that 'multigene transformation' could further improve salt tolerance of plant.
初步证明“复合基因转化”有助于进一步提高植物的耐盐性。
Our results showed that 'multigene transformation' could further improve salt tolerance of plant.
初步证明“复合基因转化”有助于进一步提高植物的耐盐性。
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