使用甲哌鎓氯化物吸附层状双氢氧化物对棉花进行长效生长调节

Chong Wang, Changcheng An, Ningjun Li, Changjiao Sun, Yue Shen, Shenshan Zhan, Xingye Li, Yan Wang
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引用次数: 0

摘要

甲哌鎓氯化物(1,1-二甲基氯化哌啶,DPC)是一种具有代表性的植物生长调节剂,可调节源-汇关系以提高产量,并为机械栽培塑造理想的植物类型。在这里,我们展示了一种吸附了 DPC 的层状双氢氧化物(DPC-LDH)结构,它具有更强的控释性能和土壤分布。通过对棉花进行滴灌,它使 DPC 的总用量从 270 克/公顷减少到 90 克/公顷,使用次数从 5 次减少到 2 次。独特的超分子相互作用被证实是控释行为的基础。此外,除了片状 LDH 带来的物理沉降阻力外,静电作用的增强使 DPC-LDH 在土壤中的分布占主导地位。它提高了棉花植物吸收 DPC 分子的效率,大大节省了劳动力和化学品的投入。这种方法有望通过节能减排实现增产和农业可持续发展。
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Long-lasting growth regulation on cotton using mepiquat chloride adsorbed layered double hydroxide

Mepiquat chloride (1,1-dimethyl piperidinium chloride, DPC) is a representative plant growth regulator which can regulate the source-sink relationship for yield increase and shape ideal plant type for mechanical cultivation. Here we show a DPC adsorbed layered double hydroxide (DPC-LDH) architecture with enhanced controlled release property and soil distribution. By drip irrigation on cotton, it makes total dosage of DPC reduced from 270 to 90 g/ha, while the frequency decreased from 5 to 2 times. The unique supramolecular interaction is confirmed as the basis of controlled release behavior. Moreover, except for the physical resistance to the sedimentation brought by the lamellar LDH, the enhanced electrostatic interaction makes DPC-LDH the dominant distribution in soil. It improves the efficiency of DPC molecules absorbed by cotton plants and greatly saves the inputs in labor and chemicals. This method is expected to achieve the yield increase and agricultural sustainability by energy saving and emission reduction.

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