Phytoremediation, stress tolerance and bio fortification in crops through soilless culture

Avinash Sharma , Himanshu Pandey , V.S. Devadas , Bhagya D. Kartha , Amit Vashishth
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Abstract

Crop improvement through soilless cultivation opens up challenges of crop breeding, plant tissue culture and gene manipulation. The plant growing in soilless culture in a closed system, vertical farming, and protected cultivation under controlled climatic factors has immense potential for crop improvement in different aspects of phytoremediation, stress tolerance and bio fortification. The water-based culture and substrate-based culture induce classified stress tolerance in crops such as disease stress, water stress, salt stress under controlled climatic factors and can also be utilized to develop bio fortified crops. The scope and possibilities of crop improvement through water-based culture and substrate-based culture with respect to phytoremediation, stress tolerance, bio fortification, mechanisms of crop improvement and the challenges in crop improvement through soilless culture are reviewed in this paper. The soilless culture has enormous tools to combat problem of crop improvement and call for soilless green revolution. The comparative and non-comparative investigations of metabolomics, phenomics, genomics and proteomics, Donald concept-plant ideotype and Mendel theory-oligogenic and polygenic inheritance are essential to examine in natural & artificial system through soilless crop improvement.

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作物无土栽培的植物修复、抗逆性和生物强化
通过无土栽培进行作物改良为作物育种、植物组织培养和基因操作带来了挑战。植物在封闭系统无土栽培、垂直栽培和受控气候因素下的保护性栽培中生长,在植物修复、抗逆性和生物强化等方面具有巨大的作物改良潜力。水性培养和基质培养在受控的气候因素下诱导作物对疾病胁迫、水分胁迫、盐胁迫等胁迫的分类耐受性,也可用于开发生物强化作物。本文从植物修复、抗逆性、生物强化、作物改良机制以及无土栽培作物改良面临的挑战等方面综述了水性栽培和基质栽培作物改良的范围和可能性。无土栽培有巨大的工具来解决作物改良问题,并呼吁进行无土绿色革命。代谢组学、表型组学、基因组学和蛋白质组学、Donald概念植物理想型和孟德尔理论寡基因和多基因遗传的比较和非比较研究对于研究自然和生物多样性是至关重要的;通过无土作物改良的人工系统。
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