首页|Dopamine improves apple replant disease resistance by regulating physiological resilience and rhizosphere microbial community structure

Dopamine improves apple replant disease resistance by regulating physiological resilience and rhizosphere microbial community structure

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Apple replant disease(ARD)is a complex agricultural problem caused by multiple stressors that can lead to increased reactive oxygen species(ROS)levels and limited nutrient utilization in plants.However,existing countermeasures cannot effectively address this challenge.Here,we used Malus hupehensis as a test organism to investigate whether the pleiotropic molecule dopamine can alleviate ARD using pot experiments.Exogenous application of 100 pmol L-1 dopamine significantly promoted the growth of apple seedlings in the replanted soil,with a relative growth rate increase of 17.44%.Our results revealed two major pathways by which dopamine regulates ARD resistance in apple trees.First,dopamine effectively reduces the level of ROS and activates the expression of genes related to nitrogen(N)transport and metabolism.Among those genes,MdNLP5,MdNRT1.1,MdNLP2,MdNRT2.5,MdNLP3,MdNRT2.4,MdNADH-GAGOT,and MdFd-GAGOT were strongly regulated by dopamine.These regulatory effects promoted the uptake and utilization of soil N by the plants.Second,dopamine improved the physical and chemical properties,enhanced microbial community diversity,and promoted mutual cooperation between microbial communities in the soil.Furthermore,dopamine altered the microbial structure of rhizosphere soil(upregulating Clostridiales,Gaiellales,Sordariales and Mortierellales;downregulating Micrococcales,Longimicrobiales,Hypocreales and Cystobasidiales).Notably,dopamine significantly upregulated the abundances of Gaiella and Mortierella,both of which were positively correlated with soil urease activity,soil available N content,plant growth and N uptake.Dopamine also significantly downregulated the abundance of the plant pathogen Gibberella(by 11.71-fold)in replant soil.Our results provide insights into the mechanisms by which dopamine promotes ARD resistance,and can promote the sustainable development of the apple industry.

continuous cropping barrierexogenous dopamineMalus hupehensis Rehd.15N-labelingsoil microbiome

Peihua Du、Yang Cao、Huaite Liu、Jiahao Ji、Wei Sun、Xueying Zhang、Jizhong Xu、Bowen Liang

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College of Horticulture,Hebei Agricultural University,Baoding 071001,China

National Natural Science Foundation of ChinaScience and Technology Project of Hebei Education Department,ChinaInnovation Ability Training Project for Graduate Student of Hebei Province,ChinaIntroduced Talents Project of Hebei Agricultural University,ChinaKey Research and Development Project of Hebei Province,ChinaEarmarked Fund for the China Agricultural Research System,China

31901964BJK2022012CXZZBS2023071YJ20190421326308D-02-03CARS-27

2024

10.1016/j.jia.2024.07.011

农业科学学报(英文)
中国农业科学院农业信息研究所

农业科学学报(英文)

CSTPCD
影响因子:0.576
ISSN:2095-3119
年,卷(期):2024.23(9)