首页|期刊导航|中国生态农业学报(中英文)|叶面喷施腐植酸对水稻Cd吸收和叶际细菌群落的影响

叶面喷施腐植酸对水稻Cd吸收和叶际细菌群落的影响OA

Effects of foliar application of humic acid on cadmium uptake and phyllosphere bacterial community in rice

中文摘要英文摘要

重金属污染是制约耕地安全生产和可持续利用的主要限制因素之一,开发高效、便捷的重金属污染修复技术对保障国家粮食安全具有重要意义.腐植酸(HA)作为植物调节剂,对水稻具有良好的促生作用.本研究通过盆栽试验,研究了不同HA喷施量(0、4.40、8.80、13.20和17.60 kg·hm-2)对水稻生长和Cd吸收的影响,同时通过高通量测序技术解析了水稻叶际细菌群落对HA喷施的响应及其与水稻Cd吸收的关系.结果表明,所有HA喷施处理均能促进水稻在Cd污染土壤中的生长和对Cd的抗性.与对照相比,HA处理使水稻株高、根长、鲜重、生物量和籽粒产量分别提高 6.33%-26.44%、12.65%-48.23%、16.86%-51.53%、19.52%-59.93%和 4.11%-13.58%,且对鲜重和生物量的促进效果随HA施用量的增加而增加;HA处理同时使水稻根、茎叶及籽粒的Cd含量分别显著降低2.74%-8.87%、6.17%-16.48%和5.95%-18.01%.HA施用显著改变了叶际细菌群落结构,并且提高了叶际细菌多样性,但是高施用量处理显著降低了叶际细菌群落的网络复杂度.植株Cd含量与叶际细菌群落结构和多样性均无显著相关性,但是与细菌群落互作复杂度显著相关.以上结果说明,HA作为叶面调理剂可有效提高水稻的Cd抗性并改变叶际微生物群落,提高水稻产量和安全性;同时,HA表现出明显的非线性剂量效应,在本试验条件下,HA叶面喷施量为13.20 kg·hm-2时更利于水稻在Cd污染土壤的安全生产.

Heavy metal pollution remains a major constraint affecting the safe production and sustainable utilization of cultivated land.Developing efficient and convenient remediation technologies for heavy metal contamination is crucial for ensuring national food security.As a plant growth regulator,humic acid(HA)demonstrates beneficial effects on rice growth.However,a systematic understanding of the impact and mechanisms of foliar HA application on heavy metal uptake in rice is still lacking.This study invest-igated the effects of varying HA spray dosages,which were 0(control),4.40,8.80,13.20 and 17.60 kg·hm-2,on rice growth and Cd uptake through pot experiments and analyzed the response of phyllosphere bacterial communities to HA application and their relation-ship with Cd uptake,using high-throughput sequencing technology.All HA treatments enhanced rice growth and Cd resistance in Cd-contaminated soil.Compared with the control,HA application increased plant height,root length,fresh weight,biomass and grain yield by 6.33%-26.44%,12.65%-48.23%,16.86%-51.53%,19.52%-59.93%,and 4.11%-13.58%.The growth-promoting effects on fresh weight,biomass intensified with increasing HA dosage.Furthermore,HA application significantly reduced Cd content in rice roots,stems and leaves,and grains by 2.74%-8.87%,6.17%-16.48%,and 5.95%-18.01%respectively.HA treatments significantly altered the structure and increased the diversity of phyllosphere bacterial communities;however,high HA dosages significantly re-duced the network complexity of phyllosphere bacterial communities.Plant Cd content was significantly correlated with the complex-ity of bacterial community interactions rather than the community structure or diversity of phyllosphere bacteria communities.These findings indicated that foliar HA application effectively improved Cd resistance in rice,modified phyllosphere microbial communit-ies,and enhanced both yield and crop safety.Furthermore,HA exhibited a distinct nonlinear dose-response effect.Under the experi-mental conditions,an optimal foliar HA dosage of 13.20 kg·hm-2 was identified as most conducive to rice production in Cd-contamin-ated soil.

蒋子墨;邓轩;罗冰冰;吴俊;孙瑞波

安徽农业大学资源与环境学院/农田生态保育与养分资源高效利用安徽省重点实验室/自然资源部江淮耕地资源保护与生态修复重点实验室 合肥 230036安徽农业大学资源与环境学院/农田生态保育与养分资源高效利用安徽省重点实验室/自然资源部江淮耕地资源保护与生态修复重点实验室 合肥 230036安徽农业大学资源与环境学院/农田生态保育与养分资源高效利用安徽省重点实验室/自然资源部江淮耕地资源保护与生态修复重点实验室 合肥 230036安徽禾美环保集团股份有限公司 合肥 230093安徽农业大学资源与环境学院/农田生态保育与养分资源高效利用安徽省重点实验室/自然资源部江淮耕地资源保护与生态修复重点实验室 合肥 230036

农业科技

腐植酸水稻Cd污染土壤Cd吸收叶际微生物

humic acidriceCd-contaminated soilCd absorptionphyllosphere microorganisms

《中国生态农业学报(中英文)》 2026 (3)

510-520,11

安徽省自然资源科技项目(2023-K-4)资助 This study was supported by the Natural Resources Science and Technology Project of Anhui Province(2023-K-4).

10.12357/cjea.20250143

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