scholarly journals Conditioning the soil microbiome through plant–soil feedbacks suppresses an aboveground insect pest

2020 ◽  
Vol 226 (2) ◽  
pp. 595-608 ◽  
Author(s):  
Ana Pineda ◽  
Ian Kaplan ◽  
S. Emilia Hannula ◽  
Wadih Ghanem ◽  
T. Martijn Bezemer
Keyword(s):  
Insect Pest ◽  
Soil Microbiome ◽  
Plant Soil

scholarly journals Biochar Application Alleviated Negative Plant-Soil Feedback by Modifying Soil Microbiome

2020 ◽  
Vol 11 ◽  
Author(s):  
Wenpeng Wang ◽  
Zhuhua Wang ◽  
Kuan Yang ◽  
Pei Wang ◽  
Huiling Wang ◽  
...  
Keyword(s):  
Soil Microbiome ◽  
Plant Soil ◽  
Soil Feedback

scholarly journals Organic management promotes natural pest control through enhanced plant resistance to insects

2019 ◽  
Author(s):  
Robert Blundell ◽  
Jennifer E. Schmidt ◽  
Alexandria Igwe ◽  
Andrea L. Cheung ◽  
Rachel L. Vannette ◽  
...  
Keyword(s):  
Microbial Communities ◽  
Plant Resistance ◽  
Insect Pest ◽  
Organic Soil ◽  
Soil Microbiome ◽  
Organic Systems ◽  
Resistance To Insects ◽  
Plant Resistance To Insects ◽  
Salicylic Acid Accumulation ◽  
Natural Pest Control

AbstractLower insect pest populations found on long-term organic farms have largely been attributed to increased biodiversity and abundance of beneficial predators. However, potential induction of plant defenses has largely been ignored. This study aims to determine whether host plant resistance mediates decreased pest populations in organic systems, and to identify the underpinning mechanisms. We demonstrate that greater numbers of leafhoppers (Circulifer tenellus) settle on tomatoes (Solanum lycopersicum) grown using conventional management as compared to organic. Soil microbiome sequencing, chemical analysis, and transgenic approaches, coupled with multi-model inference, suggest that changes in leafhopper settling between organically and conventionally-grown tomatoes are dependent on salicylic acid accumulation in the plant, likely mediated by rhizosphere microbial communities. These results suggest that organically-managed soils and microbial communities may play an unappreciated role in reducing plant attractiveness to pests by increasing plant resistance.

scholarly journals Persistence of plant-mediated microbial soil legacy effects in soil and inside roots

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
S. Emilia Hannula ◽  
Robin Heinen ◽  
Martine Huberty ◽  
Katja Steinauer ◽  
Jonathan R. De Long ◽  
...  
Keyword(s):  
Plant Growth ◽  
Plant Species ◽  
Bacterial Communities ◽  
Early Ontogeny ◽  
Vital Role ◽  
Soil Microbiome ◽  
Legacy Effects ◽  
Plant Soil ◽  
Soil Legacy ◽  
Plant Effect

AbstractPlant-soil feedbacks are shaped by microbial legacies that plants leave in the soil. We tested the persistence of these legacies after subsequent colonization by the same or other plant species using 6 typical grassland plant species. Soil fungal legacies were detectable for months, but the current plant effect on fungi amplified in time. By contrast, in bacterial communities, legacies faded away rapidly and bacteria communities were influenced strongly by the current plant. However, both fungal and bacterial legacies were conserved inside the roots of the current plant species and their composition significantly correlated with plant growth. Hence, microbial soil legacies present at the time of plant establishment play a vital role in shaping plant growth even when these legacies have faded away in the soil due the growth of the current plant species. We conclude that soil microbiome legacies are reversible and versatile, but that they can create plant-soil feedbacks via altering the endophytic community acquired during early ontogeny.

scholarly journals Structure and ecological function of the soil microbiome affecting plant–soil feedbacks in the presence of a soil‐borne pathogen

2019 ◽  
Vol 22 (2) ◽  
pp. 660-676 ◽  
Author(s):  
S. Emilia Hannula ◽  
Hai‐kun Ma ◽  
Juan E. Pérez‐Jaramillo ◽  
Ana Pineda ◽  
T. Martijn Bezemer
Keyword(s):  
Ecological Function ◽  
Soil Microbiome ◽  
Plant Soil

A compositional shift in the soil microbiome induced by tetracycline, sulfamonomethoxine and ciprofloxacin entering a plant-soil system

2016 ◽  
Vol 212 ◽  
pp. 440-448 ◽  
Author(s):  
Hui Lin ◽  
Danfeng Jin ◽  
Thomas E. Freitag ◽  
Wanchun Sun ◽  
Qiaogang Yu ◽  
...  
Keyword(s):  
Soil Microbiome ◽  
Soil System ◽  
Plant Soil

scholarly journals Responsiveness of Elite Cultivars vs. Ancestral Genotypes of Barley to Beneficial Rhizosphere Microbiome, Supporting Plant Defense Against Root-Lesion Nematodes

2021 ◽  
Vol 12 ◽  
Author(s):  
Ahmed Elhady ◽  
Sakineh Abbasi ◽  
Naser Safaie ◽  
Holger Heuer
Keyword(s):  
Plant Defense ◽  
Denaturing Gradient Gel Electrophoresis ◽  
Soil Microbiome ◽  
Root Weight ◽  
Defense Gene Expression ◽  
Plant Soil ◽  
Lesion Nematodes ◽  
Gradient Gel Electrophoresis ◽  
Microbe Interactions ◽  
Root Lesion Nematodes

Harnessing plant-microbe interactions to advance crop resistance to pathogens could be a keystone in sustainable agriculture. The breeding of crops to maximize yield in intensive agriculture might have led to the loss of traits that are necessary for beneficial plant-soil feedback. In this study, we tested whether the soil microbiome can induce a stronger plant defense against root-lesion nematodes in ancestral genotypes of barley than in elite cultivars. Plants were grown in a sterile substrate with or without the inoculation of rhizosphere microbiomes, and Pratylenchus neglectus was inoculated to the roots. Unexpectedly, elite cultivars profited significantly more from the microbiome than ancestral genotypes, by the reduction of nematodes in roots and the increased shoot weight relative to control plants. The elite cultivars had higher microbial densities in the rhizosphere, which were correlated with root weight. The structure of the bacterial and fungal community of elite and ancestral genotypes differed, as compared by 16S rDNA or internal transcribed spacer amplicon profiles in denaturing gradient gel electrophoresis. The elite cultivars differed in responsiveness to the microbiome. For the most responsive cultivars Beysehir and Jolgeh, the strong microbe-induced suppression of nematodes coincided with the strongest microbe-dependent increase in transcripts of salicylic acid-regulated defense genes after nematode invasion, while the jasmonate-regulated genes LOX2 and AOS were downregulated in roots with the inoculated microbiome. The microbe-triggered modulation of defense gene expression differed significantly between elite and ancestral genotypes of barley. Soil microbiomes conditioned by maize roots suppressed the nematodes in elite cultivars, while the corresponding bulk soil microbiome did not. In conclusion, cultivars Beysehir and Jolgeh harbor the genetic background for a positive plant-microbiome feedback. Exploiting these traits in breeding for responsiveness to beneficial soil microbiomes, accompanied by soil biome management for compatible plant-microbe interactions, will support low-input agriculture and sustainability.

scholarly journals Rice Plant–Soil Microbiome Interactions Driven by Root and Shoot Biomass

Diversity ◽  
2021 ◽  
Vol 13 (3) ◽  
pp. 125
Author(s):  
Cristina P. Fernández-Baca ◽  
Adam R. Rivers ◽  
Jude E. Maul ◽  
Woojae Kim ◽  
Ravin Poudel ◽  
...  
Keyword(s):  
Developmental Stage ◽  
Recombinant Inbred Lines ◽  
Microbial Community Composition ◽  
Growth Patterns ◽  
Soil Microbiome ◽  
Shoot Biomass ◽  
Metagenomic Sequencing ◽  
Physiological Maturity ◽  
Plant Soil ◽  
Root And Shoot Biomass

Plant–soil microbe interactions are complex and affected by many factors including soil type, edaphic conditions, plant genotype and phenotype, and developmental stage. The rice rhizosphere microbial community composition of nine recombinant inbred lines (RILs) and their parents, Francis and Rondo, segregating for root and shoot biomass, was determined using metagenomic sequencing as a means to examine how biomass phenotype influences the rhizosphere community. Two plant developmental stages were studied, heading and physiological maturity, based on root and shoot biomass growth patterns across the selected genotypes. We used partial least squares (PLS) regression analysis to examine plant trait-driven microbial populations and identify microbial species, functions, and genes corresponding to root and shoot biomass as well as developmental stage patterns. Species identified correlated with increases in either root or shoot biomass were widely present in soil and included species involved in nitrogen cycling (Anaeromyxobacter spp.) and methane production (Methanocella avoryzae), as well as known endophytes (Bradyrhizobium spp.). Additionally, PLS analysis allowed us to explore the relationship of developmental stage with species, microbial functions, and genes. Many of the community functions and genes observed during the heading stage were representative of cell growth (e.g., carbohydrate and nitrogen metabolism), while functions correlated with physiological maturity were indicative of cell decay. These results are consistent with the hypothesis that microbial communities exist whose metabolic and gene functions correspond to plant biomass traits.

THE SUCCESS OF THE LUCERNE MESSAGE IN MARLBOROUGH

1981 ◽  
pp. 179-183
Author(s):  
A.J. Cresswell
Keyword(s):  
North America ◽  
Weed Control ◽  
Seed Yield ◽  
Insect Pest ◽  
Fold Increase ◽  
Plant Spacing ◽  
Insect Pest Control ◽  
One Year ◽  
Seed Yields ◽  
New Cultivars

This paper, as well as being a testimonial to the benefit the writer has received from the Grassland Association, shows how the knowledge of scientists has been used to increase lucerne seed yields by methods of growing resistant cultivars especially for seed production as opposed to growing for hay, silage or grazing. It shows how new cultivars can be multiplied quickly by growing two crops in one year, one in each hemisphere, by using low seeding rates, wide plant spacing and very good weed control. Increased flowering of the crop has been achieved by the use of boron and the choice of time of closing; better pollination has been achieved by the use of more efficient bees - two varieties of which have been imported from North America. Weed and insect pest control and the use of a desiccant at harvest are contributing to a four-fold increase in seed yield, which should double again soon,

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