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Trait-based characterisation of soil exploitation strategies of banana, weeds and cover plant species

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  • Florence Tardy
  • Gaëlle Damour
  • Marc Dorel
  • Delphine Moreau

Abstract

Cover plants can be introduced in cropping systems to provide agroecosystem services, including weed control via competition for resources. There is currently no consensus on how to identify the best cover plant species, while trait-based approaches are promising for screening plant species due to their agroecosystem service provision potential. This study was carried out to characterize soil exploitation strategies of cover plant species in banana agroecosystems using a trait-based approach, and in turn identify cover plant species with a high weed control potential via competition for soil resources in banana cropping systems. A field experiment was conducted on 17 cover plant species, two weed species and two banana cultivars grown individually. Four functional traits were measured. Two of them (i.e., the size of the zone explored by roots and the root impact density) were used to characterize root system soil exploration patterns. Two other traits (i.e., specific root length and root diameter) were used to characterize resource acquisition within the soil zone explored by the roots. All studied traits exhibited marked variations among species. The findings suggested a trade-off between the abilities of species to develop a limited number of large diameter roots exploring a large soil zone versus many thin roots exploring a smaller soil zone. Three soil-resource exploitation strategies were identified among species: (i) with large diameter roots that explore a large soil zone; (ii) with small diameter roots and a high specific length that explore a smaller soil zone; and (iii) with a high total root-impact density and an intermediate specific root length that explore the uppermost soil layers. Interestingly, in our panel of species, no correlations with regard to belowground and aboveground strategies were noted: species with an acquisitive belowground strategy could display an acquisitive or a conservative aboveground strategy. The findings of this study illustrated that a trait-based approach could be used to identify plant species with potential for competing with weeds, while minimising competition with banana. Six of the 17 studied cover crop species were identified as having this potential. The next step will be to assess them for their weed control performances in banana cropping systems with low reliance on herbicides.

Suggested Citation

  • Florence Tardy & Gaëlle Damour & Marc Dorel & Delphine Moreau, 2017. "Trait-based characterisation of soil exploitation strategies of banana, weeds and cover plant species," PLOS ONE, Public Library of Science, vol. 12(3), pages 1-17, March.
    • Handle: RePEc:plo:pone00:0173066
    DOI: 10.1371/journal.pone.0173066
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    References listed on IDEAS

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    1. Hélène Tribouillois & Florian Fort & Pablo Cruz & Raphaël Charles & Olivier Flores & Eric Garnier & Eric Justes, 2015. "A Functional Characterisation of a Wide Range of Cover Crop Species: Growth and Nitrogen Acquisition Rates, Leaf Traits and Ecological Strategies," PLOS ONE, Public Library of Science, vol. 10(3), pages 1-17, March.
    2. Pagès, Loïc & Bécel, Carole & Boukcim, Hassan & Moreau, Delphine & Nguyen, Christophe & Voisin, Anne-Sophie, 2014. "Calibration and evaluation of ArchiSimple, a simple model of root system architecture," Ecological Modelling, Elsevier, vol. 290(C), pages 76-84.
    3. Gardarin, Antoine & Dürr, Carolyne & Colbach, Nathalie, 2011. "Prediction of germination rates of weed species: Relationships between germination speed parameters and species traits," Ecological Modelling, Elsevier, vol. 222(3), pages 626-636.
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