Plant diversity and overyielding: insights from belowground facilitation of intercropping in agriculture

Li, Long; Tilman, David; Lambers, Hans; Zhang, Fusuo

doi:10.1111/nph.12778

Cited by 495 publications

(411 citation statements)

References 62 publications

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“…Overyielding may also emerge because of facilitation, where diatom-associated bacteria that are genotype specific may chemically mobilize otherwise unavailable forms of micronutrients. This has not been shown in diatom-bacteria studies, but similar mechanisms are known from terrestrial plant systems (Li et al, 2014). Alternatively, the 'portfolio effect' involving a suite of species (suite of genotypes in our case) that exhibit differential responses to environmental perturbations creates stability that preserves the integrity of a physiological trait (Tilman, 1999(Tilman, , 2006.…”

Section: Diversity and Performancementioning

confidence: 88%

Genetic diversity affects ecological performance and stress response of marine diatom populations

Sjöqvist

Kremp

2016

The ISME Journal

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Genetic diversity is considered an important factor, stabilizing ecological functions when organisms are faced with changing environmental conditions. Although well known from terrestrial systems, documentations of this relationship from marine organisms, and particularly planktonic microorganisms, are still limited. Here we experimentally tested the effects of genotypic diversity on ecologically relevant cellular parameters (growth, primary production, particulate organic carbon, particulate organic nitrogen, particulate organic phosphorus and biogenic silica) at optimal and suboptimal salinity conditions in a marine phytoplankton species. Multiple clonal genotyped and phenotypically characterized isolates of the diatom Skeletonema marinoi from the Baltic Sea were grown in monocultures and mixes of 5 and 20 clones at native (5 psu) and reduced (3 psu) salinities and respective parameters were compared. Re-genotyping of 30 individuals from each population at five microsatellite loci at the end of the experiment confirmed maintenance of genotypic richness. Although a diversity effect on growth was not detected, primary production and particulate organic nutrients were positively affected by increased diversity independent of salinity condition. Under salinity stress, highest values of primary production and particulate organic nitrogen content were measured at the high diversity level. The observed diversity effects emphasize the importance of genetic diversity of phytoplankton populations for ecological functions.

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Section: Diversity and Performancementioning

confidence: 88%

Genetic diversity affects ecological performance and stress response of marine diatom populations

Sjöqvist

Kremp

2016

The ISME Journal

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“…This can occur directly through positive mechanisms, e.g. the amelioration of harsh environmental conditions, including favourable alteration of light, temperature and soil moisture, and increased availability of limiting soil nutrients (Sekiya et al, 2011;L. Li et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Crop acquisition of phosphorus, iron and zinc from soil in cereal/legume intercropping systems: a critical review

Xue

Xia

Christie

et al. 2016

Ann Bot

Self Cite

187

132

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Background Phosphorus (P), iron (Fe) and zinc (Zn) are essential elements for plant growth and development, but their availability in soil is often limited. Intercropping contributes to increased P, Fe and Zn uptake and thereby increases yield and improves grain nutritional quality and ultimately human health. A better understanding of how intercropping leads to increased plant P, Fe and Zn availability will help to improve P-fertilizer-use efficiency and agronomic Fe and Zn biofortification.Scope This review synthesizes the literature on how intercropping of legumes with cereals increases acquisition of P, Fe and Zn from soil and recapitulates what is known about root-to-shoot nutrient translocation, plant-internal nutrient remobilization and allocation to grains.Conclusions Direct interspecific facilitation in intercropping involves below-ground processes in which cereals increase Fe and Zn bioavailability while companion legumes benefit. This has been demonstrated and verified using isotopic nutrient tracing and molecular analysis. The same methodological approaches and field studies should be used to explore direct interspecific P facilitation. Both niche complementarity and interspecific facilitation contribute to increased P acquisition in intercropping. Niche complementarity may also contribute to increased Fe and Zn acquisition, an aspect poorly understood. Interspecific mobilization and uptake facilitation of sparingly soluble P, Fe and Zn from soil, however, are not the only determinants of the concentrations of P, Fe and Zn in grains. Grain yield and nutrient translocation from roots to shoots further influence the concentrations of these nutrients in grains.

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“…In case of phosphorus-mobilizing, crop species improve P nutrition for themselves and neighbouring non-P-mobilizing species by releasing acid phosphatases, protons and/or carboxylates into the rhizosphere which increases the concentration of soluble inorganic P in soil. Similarly, on calcareous soils with a very low availability of Fe and Zn, Fe-and Znmobilizing species, such as graminaceous monocotyledonous and cluster-rooted species, benefit themselves, and also reduce Fe or Zn deficiency in neighbouring species, by releasing chelating substances [31].…”

Section: Biodiversity In Ecosystems -Linking Structure and Functionmentioning

confidence: 99%

Underutilized Crops and Intercrops in Crop Rotation as Factors for Increasing Biodiversity on Fields

Bavec¹,

Bavec²

2015

Biodiversity in Ecosystems - Linking Structure and Function

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Plant diversity and overyielding: insights from belowground facilitation of intercropping in agriculture

Cited by 495 publications

References 62 publications

Genetic diversity affects ecological performance and stress response of marine diatom populations

Genetic diversity affects ecological performance and stress response of marine diatom populations

Crop acquisition of phosphorus, iron and zinc from soil in cereal/legume intercropping systems: a critical review

Underutilized Crops and Intercrops in Crop Rotation as Factors for Increasing Biodiversity on Fields

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