Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/13702
Title: Facing climate change: biotechnology of iconic Mediterranean woody crops
Authors: De Ollas, Carlos 
Morillón, Raphaël 
Fotopoulos, Vasileios 
Puértolas, Jaime 
Ollitrault, Patrick 
Gómez-Cadenas, Aurelio 
Arbona, Vicent 
Major Field of Science: Agricultural Sciences
Field Category: Agriculture Forestry and Fisheries
Keywords: Citrus;Climate change;Genomics;Grapevine;Metabolomics;Olive tree;Proteomics;Systems biology
Issue Date: 16-Apr-2019
Source: Frontiers in Plant Science, 2019, vol. 10
Volume: 10
Journal: Frontiers in Plant Science 
Abstract: The Mediterranean basin is especially sensitive to the adverse outcomes of climate change and especially to variations in rainfall patterns and the incidence of extremely high temperatures. These two concurring adverse environmental conditions will surely have a detrimental effect on crop performance and productivity that will be particularly severe on woody crops such as citrus, olive and grapevine that define the backbone of traditional Mediterranean agriculture. These woody species have been traditionally selected for traits such as improved fruit yield and quality or alteration in harvesting periods, leaving out traits related to plant field performance. This is currently a crucial aspect due to the progressive and imminent effects of global climate change. Although complete genome sequence exists for sweet orange (Citrus sinensis) and clementine (Citrus clementina), olive tree (Olea europaea) and grapevine (Vitis vinifera), the development of biotechnological tools to improve stress tolerance still relies on the study of the available genetic resources including interspecific hybrids, naturally occurring (or induced) polyploids and wild relatives under field conditions. To this respect, post-genomic era studies including transcriptomics, metabolomics and proteomics provide a wide and unbiased view of plant physiology and biochemistry under adverse environmental conditions that, along with high-throughput phenotyping, could contribute to the characterization of plant genotypes exhibiting physiological and/or genetic traits that are correlated to abiotic stress tolerance. The ultimate goal of precision agriculture is to improve crop productivity, in terms of yield and quality, making a sustainable use of land and water resources under adverse environmental conditions using all available biotechnological tools and high-throughput phenotyping. This review focuses on the current state-of-the-art of biotechnological tools such as high throughput -omics and phenotyping on grapevine, citrus and olive and their contribution to plant breeding programs.
ISSN: 1664462X
DOI: 10.3389/fpls.2019.00427
Rights: © Frontiers
Type: Article
Affiliation : Universitat Jaume I 
Lancaster University 
CIRAD 
Cyprus University of Technology 
Publication Type: Peer Reviewed
Appears in Collections:Άρθρα/Articles

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