Stress created by salinity reduces plant growth and yield, and in extreme cases can influence plant death. To solve this issue, salinity-easygoing cultivars are required. The consolidation of mutation induction and artificial selection can produce salinity-easygoing varieties. In plant development, induction mutation is individual of the methods used to increase difference. The genetic diversity created by mutation initiation is very diverse, so artificial selection can be used to obtain the desired characteristics. Selecting in vitro for salinity tolerance utilizing the NaCl selection component. The aggregation of NaCl utilized is reliant on the type of plant and explant utilized. This technology has created salinity-tolerant edible grain varieties, specifically Biosalin 1 Agritan and Boisalin 2 Agritan.Stress generated by salinity reduces plant growth and yield and, in extreme cases, can influence plant death. To resolve this issue, salinity-tolerant cultivars are required. The consolidation of mutation initiation and in vitro selection can produce salinity-easygoing varieties. In plant rearing, induction metamorphosis is one of the methods used to increase variety. The genetic variety produced by metamorphosis induction is very diverse, so artificial selection maybe used to achieve the desired characteristics. Selecting in vitro for salinity resistance using the NaCl election component The concentration of NaCl utilized is reliant on the type of plant and explant utilized. This science has produced salinity-tolerant edible grain varieties, particularly Biosalin 1 Agritan and Boisalin 2 Agritan.
Author(s) Details:
Rossa Yunita,
Research
Center for Horticulture and Estate Crops, The National Research and Innovation
Agency of The Republic of Indonesia, Indonesia.
Please see the link here: https://stm.bookpi.org/RHAS-V6/article/view/8848
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