Developed by : Indian Agricultural Research Institute (IARI)
Significance: It can be directly seeded and significantly save water and labour compared to conventional transplanting
New Variety: The varieties — Pusa Basmati 1979 and Pusa Basmati 1985 — contain a mutated acetolactate synthase (ALS) gene making it possible for farmers to spray Imazethapyr, a broad-spectrum herbicide, to control weeds
The Indian Agricultural Research Institute (IARI) has developed the country’s first-ever non-GM (genetically modified) herbicide-tolerant rice varieties that can be directly seeded and significantly save water and labour compared to conventional transplanting.
About Variety
The varieties — Pusa Basmati 1979 and Pusa Basmati 1985 — contain a mutated acetolactate synthase (ALS) gene making it possible for farmers to spray Imazethapyr, a broad-spectrum herbicide, to control weeds.
This dispenses with the need to prepare nurseries where paddy seeds are first raised into young plants, before being uprooted and replanted 25-35 days later in the main field.
About Paddy:
Paddy transplantation is both labour- and water-intensive. The field where the seedlings are transplanted has to be “puddled” or tilled in standing water.
For the first three weeks or so after transplanting, the plants are irrigated almost daily to maintain a water depth of 4-5 cm.
Farmers continue giving water every two-three days even for the next four-five weeks when the crop is in tillering (stem development) stage.
“Water is a natural herbicide that takes care of weeds in the paddy crop’s early-growth period.
The new varieties simply replace water with Imazethapyr and there’s no need for nursery, puddling, transplanting and flooding of fields.
You can sow paddy directly, just like wheat,” said A K Singh, director of IARI.
About Gene:
Imazethapyr, effective against a range of broadleaf, grassy and sedge weeds, can’t be used on normal paddy, as the chemical does not distinguish between the crop and the invasive plants.
The ALS gene in rice codes for an enzyme (protein) that synthesises amino acids for crop growth and development.
The herbicide sprayed on normal rice plants binds itself to the ALS enzymes, inhibiting their production of amino acids.
enzymes:
The new basmati varieties contain an ALS gene whose DNA sequence has been altered using ethyl methanesulfonate, a chemical mutant. As a result, the ALS enzymes no longer have binding sites for Imazethapyr and amino acid synthesis isn’t inhibited.
The plants can also now “tolerate” application of the herbicide, and hence it kills only the weeds.
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