Soil biota is decisive for overyielding in intercropping under low phosphorus conditions

Cereal/legume intercropping typically increases crop yield; however, the mechanisms through which soil microbes mediate overyielding in intercropping under different nutrient availability remain elusive. Here we examined the effect of soil biota and phosphate (P) availability on intercropping advant...

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Published inThe Journal of applied ecology Vol. 59; no. 7; pp. 1804 - 1814
Main Authors Qiao, Xu, Bei, Shuikuan, Wang, Guangzhou, Li, Chunjie, Li, Haigang, Zhang, Junling, Zhang, Fusuo
Format Journal Article
LanguageEnglish
Published Oxford Blackwell Publishing Ltd 01.07.2022
Subjects
Agricultural practices
applied ecology
Availability
Beans
biomass
Biota
Broad beans
Carboxylates
Crop yield
Crops
faba bean
faba beans
facilitation
Intercropping
Interspecific relationships
Legumes
Microbial activity
Microbiomes
Microorganisms
Monoculture
Nutrient availability
nutrient management
overyielding
phosphate availability
phosphates
Phosphorus
Protons
Rhizosphere
rhizosphere carboxylates
soil
soil biota
soil microbes
Soil microorganisms
soil sterilization
Soils
Sterilization
Sustainable agriculture
Triticum aestivum
Vicia faba
Wheat
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Abstract Cereal/legume intercropping typically increases crop yield; however, the mechanisms through which soil microbes mediate overyielding in intercropping under different nutrient availability remain elusive. Here we examined the effect of soil biota and phosphate (P) availability on intercropping advantages in wheat Triticum aestivum/faba bean Vicia faba systems using a pot experiment consisting of soil sterilization treatment and different P supply levels. A complementary experiment on the contribution of different microbial groups was also included using the removal method. Intercropping advantage was observed only in the presence of microbes and was mainly associated with increase in wheat biomass. Overyielding effect was stronger under low‐P than high‐P conditions, and was negatively correlated with P availability and the effect of soil biota in the monoculture. The effect was likely related to the enlarged active P pools and modified microbial communities associated with the alteration of rhizosphere traits (protons and carboxylates) by the neighbouring faba bean. Similarly, simplification of soil microbes significantly increased the growth and P uptake of wheat plants while faba bean growth was less affected. Synthesis and applications. Our research provides compelling evidence that soil microbiome is important in driving intercropping overyielding by regulating interspecific interactions under nutrient‐limited conditions. These findings have important implications for crop species choice in designing and managing intercropping systems where crop functional traits, soil microbiome and nutrient management should be integrated in pursuit of sustainable agriculture. Our research provides compelling evidence that soil microbiome is important in driving intercropping overyielding by regulating interspecific interactions under nutrient‐limited conditions. These findings have important implications for crop species choice in designing and managing intercropping systems where crop functional traits, soil microbiome and nutrient management should be integrated in pursuit of sustainable agriculture.
AbstractList Cereal/legume intercropping typically increases crop yield; however, the mechanisms through which soil microbes mediate overyielding in intercropping under different nutrient availability remain elusive. Here we examined the effect of soil biota and phosphate (P) availability on intercropping advantages in wheat Triticum aestivum /faba bean Vicia faba systems using a pot experiment consisting of soil sterilization treatment and different P supply levels. A complementary experiment on the contribution of different microbial groups was also included using the removal method. Intercropping advantage was observed only in the presence of microbes and was mainly associated with increase in wheat biomass. Overyielding effect was stronger under low‐P than high‐P conditions, and was negatively correlated with P availability and the effect of soil biota in the monoculture. The effect was likely related to the enlarged active P pools and modified microbial communities associated with the alteration of rhizosphere traits (protons and carboxylates) by the neighbouring faba bean. Similarly, simplification of soil microbes significantly increased the growth and P uptake of wheat plants while faba bean growth was less affected. Synthesis and applications . Our research provides compelling evidence that soil microbiome is important in driving intercropping overyielding by regulating interspecific interactions under nutrient‐limited conditions. These findings have important implications for crop species choice in designing and managing intercropping systems where crop functional traits, soil microbiome and nutrient management should be integrated in pursuit of sustainable agriculture.
Cereal/legume intercropping typically increases crop yield; however, the mechanisms through which soil microbes mediate overyielding in intercropping under different nutrient availability remain elusive.Here we examined the effect of soil biota and phosphate (P) availability on intercropping advantages in wheat Triticum aestivum/faba bean Vicia faba systems using a pot experiment consisting of soil sterilization treatment and different P supply levels. A complementary experiment on the contribution of different microbial groups was also included using the removal method.Intercropping advantage was observed only in the presence of microbes and was mainly associated with increase in wheat biomass. Overyielding effect was stronger under low‐P than high‐P conditions, and was negatively correlated with P availability and the effect of soil biota in the monoculture. The effect was likely related to the enlarged active P pools and modified microbial communities associated with the alteration of rhizosphere traits (protons and carboxylates) by the neighbouring faba bean. Similarly, simplification of soil microbes significantly increased the growth and P uptake of wheat plants while faba bean growth was less affected.Synthesis and applications. Our research provides compelling evidence that soil microbiome is important in driving intercropping overyielding by regulating interspecific interactions under nutrient‐limited conditions. These findings have important implications for crop species choice in designing and managing intercropping systems where crop functional traits, soil microbiome and nutrient management should be integrated in pursuit of sustainable agriculture.
Cereal/legume intercropping typically increases crop yield; however, the mechanisms through which soil microbes mediate overyielding in intercropping under different nutrient availability remain elusive. Here we examined the effect of soil biota and phosphate (P) availability on intercropping advantages in wheat Triticum aestivum/faba bean Vicia faba systems using a pot experiment consisting of soil sterilization treatment and different P supply levels. A complementary experiment on the contribution of different microbial groups was also included using the removal method. Intercropping advantage was observed only in the presence of microbes and was mainly associated with increase in wheat biomass. Overyielding effect was stronger under low‐P than high‐P conditions, and was negatively correlated with P availability and the effect of soil biota in the monoculture. The effect was likely related to the enlarged active P pools and modified microbial communities associated with the alteration of rhizosphere traits (protons and carboxylates) by the neighbouring faba bean. Similarly, simplification of soil microbes significantly increased the growth and P uptake of wheat plants while faba bean growth was less affected. Synthesis and applications. Our research provides compelling evidence that soil microbiome is important in driving intercropping overyielding by regulating interspecific interactions under nutrient‐limited conditions. These findings have important implications for crop species choice in designing and managing intercropping systems where crop functional traits, soil microbiome and nutrient management should be integrated in pursuit of sustainable agriculture. Our research provides compelling evidence that soil microbiome is important in driving intercropping overyielding by regulating interspecific interactions under nutrient‐limited conditions. These findings have important implications for crop species choice in designing and managing intercropping systems where crop functional traits, soil microbiome and nutrient management should be integrated in pursuit of sustainable agriculture.
Author Wang, Guangzhou
Zhang, Fusuo
Qiao, Xu
Bei, Shuikuan
Li, Haigang
Zhang, Junling
Li, Chunjie
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Copyright 2022 The Authors. Journal of Applied Ecology © 2022 British Ecological Society.
2022 British Ecological Society
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Snippet Cereal/legume intercropping typically increases crop yield; however, the mechanisms through which soil microbes mediate overyielding in intercropping under...
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SubjectTerms Agricultural practices
applied ecology
Availability
Beans
biomass
Biota
Broad beans
Carboxylates
Crop yield
Crops
faba bean
faba beans
facilitation
Intercropping
Interspecific relationships
Legumes
Microbial activity
Microbiomes
Microorganisms
Monoculture
Nutrient availability
nutrient management
overyielding
phosphate availability
phosphates
Phosphorus
Protons
Rhizosphere
rhizosphere carboxylates
soil
soil biota
soil microbes
Soil microorganisms
soil sterilization
Soils
Sterilization
Sustainable agriculture
Triticum aestivum
Vicia faba
Wheat
Title Soil biota is decisive for overyielding in intercropping under low phosphorus conditions
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2F1365-2664.14187
https://www.proquest.com/docview/2685826025
https://www.proquest.com/docview/2718292426
Volume 59
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