A Drought Resistance-Promoting Microbiome Is Selected by Root System under Desert Farming

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Abstract

Background

Traditional agro-systems in arid areas are a bulwark for preserving soil stability and fertility, in the sight of “reverse desertification”. Nevertheless, the impact of desert farming practices on the diversity and abundance of the plant associated microbiome is poorly characterized, including its functional role in supporting plant development under drought stress.

Methodology/Principal Findings

We assessed the structure of the microbiome associated to the drought-sensitive pepper plant ( Capsicum annuum L.) cultivated in a traditional Egyptian farm, focusing on microbe contribution to a crucial ecosystem service, i.e. plant growth under water deficit. The root system was dissected by sampling root/soil with a different degree of association to the plant: the endosphere, the rhizosphere and the root surrounding soil that were compared to the uncultivated soil. Bacterial community structure and diversity, determined by using Denaturing Gradient Gel Electrophoresis, differed according to the microhabitat, indicating a selective pressure determined by the plant activity. Similarly, culturable bacteria genera showed different distribution in the three root system fractions. Bacillus spp. (68% of the isolates) were mainly recovered from the endosphere, while rhizosphere and the root surrounding soil fractions were dominated by Klebsiella spp. (61% and 44% respectively). Most of the isolates (95%) presented in vitro multiple plant growth promoting (PGP) activities and stress resistance capabilities, but their distribution was different among the root system fractions analyzed, with enhanced abilities for Bacillus and the rhizobacteria strains. We show that the C. annuum rhizosphere under desert farming enriched populations of PGP bacteria capable of enhancing plant photosynthetic activity and biomass synthesis (up to 40%) under drought stress.

Conclusions/Significance

Crop cultivation provides critical ecosystem services in arid lands with the plant root system acting as a “resource island” able to attract and select microbial communities endowed with multiple PGP traits that sustain plant development under water limiting conditions.

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Most cited references 44

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Drought and Salt Tolerance in Plants

Ramanjulu Sunkar, Dorothea Bartels (2005)

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Soil fertility and biodiversity in organic farming.

Paul Mäder, Andreas Fliessbach, David Lane DuBois … (2002)

An understanding of agroecosystems is key to determining effective farming systems. Here we report results from a 21-year study of agronomic and ecological performance of biodynamic, bioorganic, and conventional farming systems in Central Europe. We found crop yields to be 20% lower in the organic systems, although input of fertilizer and energy was reduced by 34 to 53% and pesticide input by 97%. Enhanced soil fertility and higher biodiversity found in organic plots may render these systems less dependent on external inputs.

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Properties of bacterial endophytes and their proposed role in plant growth.

Pablo R Hardoim, Leo van Overbeek, Jan Dirk van Elsas (2008)

Bacterial endophytes live inside plants for at least part of their life cycle. Studies of the interaction of endophytes with their host plants and their function within their hosts are important to address the ecological relevance of endophytes. The modulation of ethylene levels in plants by bacterially produced 1-aminocyclopropane-1-carboxylate deaminase is a key trait that enables interference with the physiology of the host plant. Endophytes with this capacity might profit from association with the plant, because colonization is enhanced. In turn, host plants benefit by stress reduction and increased root growth. This mechanism leads to the concept of 'competent' endophytes, defined as endophytes that are equipped with genes important for maintenance of plant-endophyte associations. The ecological role of these endophytes and their relevance for plant growth are discussed here.

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Author and article information

Contributors

Jack Anthony Gilbert: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, USA )

ISSN (Electronic): 1932-6203

Publication date Collection: 2012

Publication date (Electronic): 31 October 2012

Volume: 7

Issue: 10

Electronic Location Identifier: e48479

Affiliations

[1 ]Dipartimento di Scienze per gli Alimenti, la Nutrizione e l’Ambiente, Università degli Studi di Milano, Milan, Italy

[2 ]Laboratoire Microorganismes et Biomolécules Actives, Université Tunis El Manar, Tunis, Tunisia and Laboratoire Biotechnologie et Valorisation des Bio-Géo Ressources, Institut Supérieur de Biotechnologie, Université de La Manouba, Sidi Thabet, Ariana, Tunisia

[3 ]Dipartimento di Scienze Agrarie e Alimentari- Produzione, Territorio, Agroenergia; Università degli Studi di Milano, Milan, Italy

[4 ]Department of Horticulture, Ain Shams University, Cairo, Egypt

Argonne National Laboratory, United States of America

Author notes

* E-mail: daniele.daffonchio@ 123456unimi.it

Competing Interests: The authors have declared that no competing interests exist.

Conceived and designed the experiments: RM ER SB DD AC AAH UEB. Performed the experiments: RM ER BE GV FM. Analyzed the data: RM ER GV. Contributed reagents/materials/analysis tools: DD SB CS GZ. Wrote the paper: ER RM GV SB DD. Collected the samples: AAH UEB GV GZ DD. Critically revised the manuscript: AAH UEB CS AC GZ.

Article

Publisher ID: PONE-D-12-23436

DOI: 10.1371/journal.pone.0048479

PMC ID: 3485337

PubMed ID: 23119032

SO-VID: 135fe18d-cc1f-459d-9722-b28a1b2d75d2

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 3 August 2012

Date accepted : 2 October 2012

Page count

Pages: 14

Funding

This work was financially supported by the FIRB project n° RBIN047MBH “Strategy to improve crop productivity under water stress” of the Italian Ministry of University and Research, the European Union in the ambit of project BIODESERT (European Community’s Seventh Framework Programme CSA-SA REGPOT-2008-2 under grant agreement n° 245746). ER and FM are supported by Università degli Studi di Milano, European Social Found and Regione Lombardia (contract “Dote Ricerca”). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

A Drought Resistance-Promoting Microbiome Is Selected by Root System under Desert Farming

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Abstract

Background

Methodology/Principal Findings

Conclusions/Significance

Related collections

PLOS Climate

Most cited references 44

Drought and Salt Tolerance in Plants

Soil fertility and biodiversity in organic farming.

Properties of bacterial endophytes and their proposed role in plant growth.

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