首页|Soil pH and phosphorus drive the canonical nitrifiers and comammox Nitrospira communities in citrus orchards with different cultivation ages
Soil pH and phosphorus drive the canonical nitrifiers and comammox Nitrospira communities in citrus orchards with different cultivation ages
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·Comammox Nitrospira clade A and B showed contrasting responses to citrus planting.·54d9-like AOA and Nitrobacter-NOB dominated in the 5Y and 10Y soils.·Nitrososphaera-like AOA and Nitrospira-like NOB dominated in the 20Y and 30Y soils.·Soil pH and P content were the major factors shaping nitrifying communities.Ammonia oxidizing bacteria(AOB),archaea(AOA),nitrite oxidizing bacteria(NOB)and complete ammonia oxidizers(comammox Nitrospira)are major players in nitrification.However,the distribution and community composition of these nitrifiers in intensively managed orchard soils are still unclear.Here,we chose soil samples from citrus orchards that had been planted for 5 years(5Y),10 years(10Y),20 years(20Y)and 30 years(30Y),and adjacent woodland(NF),to study the response of nitrifiers to long-term citrus plantation using quantitative PCR and MiSeq sequencing.Our results revealed that the ammonia and nitrite oxidation potentials in the 5Y soil were the highest,and decreased with increasing plantation age.The AOB abundance was higher in 5Y and 10Y soils than that in 20Y and 30Y soils.The abundance of comammox Nitrospira clade A increased with increasing plantation age,but comammox Nitrospira clade B showed the opposite tendency.MiSeq sequencing results indicated 54d9-like AOA and Nitrobacter-NOB were the dominant populations in 5Y and 10Y soils whereas Nitrososphaera-like AOA and Nitrospira-like NOB dominated in 20Y and 30Y soils.The conversion of woodland to orchard resulted in a significant shift of AOB population from Nitrosospira cluster 3a.1 to cluster 3a.2.In addition,soil pH and phosphorus(P)content were the major factors shaping nitrifying communities.This work suggested citrus plantation altered the distribution of community compo-sition of nitrifiers by affecting soil chemical and physical conditions,and comammox Nitrospira could potentially play an important role in nitrification in intensive managed orchard soils.
Haiyang Liu、Zhikang Tao、Hongen Liu、Wei Xu、Yuanyi Qin、Zhaojun Nie、Wenfeng Tan
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College of Resources and Environmental Sciences,Henan Agricultural University,Zhengzhou 450002,China
Key Laboratory of Horticultural Plant Biology,The Ministry of Education,College of Resources and Environment,Huazhong Agricultural University,Wuhan 430070,China
Guizhou Rice Research Institute,Guizhou Academy of Agricultural Sciences,Guiyang 550006,China
National Key Research and Development Program of ChinaNational Natural Science Foundation of ChinaScientific and Technological Key Projects of Henan ProvinceNatural Science Foundation of Henan Province
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