期刊
INDIAN JOURNAL OF AGRICULTURAL SCIENCES
卷 91, 期 11, 页码 1646-1649出版社
INDIAN COUNC AGRICULTURAL RES
DOI: 10.56093/ijas.v91i11.118577
关键词
Fe-deficiency; Ferric-chelate reductase; Lateral root; Potato
The experiment demonstrated a significant increase in lateral root growth of potato genotype under iron-stress, with total lateral root number being closely linked to ferric-chelate reductase activity. These findings suggest that FCR plays a role in root Fe uptake in potato and may contribute to Fe distribution throughout the plant, indicating a potential trait for identifying tolerance to chlorosis and nutrient-deficiency stress.
In response to Fe-deficiency, various dicots increase their root branching to improve ferric-chelate reductase activity. It still remains unclear, whether the response caused by Fe-deficiency ultimately improves the plant's ability to withstand Fe-deficiency. In this experiment conducted at ICAR-Central Potato Research Institute, Regional Station, Shillong during 2020, we demonstrated a substantial increase in the growth of the lateral root of potato genotype (CP 3443), when grown in the iron-stress, in relation to control plants, and the total lateral root number is well linked to ferric-chelate reductase (FCR) activity. These findings showed that FCR is involved in root Fe uptake in potato (Solanum tuberosum L.) and they suggest a role in Fe distribution throughout the plant. In view of these findings, the Fe-deficiency induced increases in the lateral roots suggested that these play a significant role in Fe-deficiency tolerance in potato, which can serve as useful trait for the identification of chlorosis tolerance and/or nutrient-deficiency stress.
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