Application of Arbuscular Mycorrhizal Fungi in Vineyards: Water and Biotic Stress Under a Climate Change Scenario: New Challenge for Chilean Grapevine Crop

Author:

Aguilera Paula,Ortiz Nancy,Becerra Ninozhka,Turrini Alessandra,Gaínza-Cortés Felipe,Silva-Flores Patricia,Aguilar-Paredes Ana,Romero Juan Karlo,Jorquera-Fontena Emilio,Mora María de La Luz,Borie Fernando

Abstract

The cropVitis vinifera(L.) is of great economic importance as Chile is one of the main wine-producing countries, reaching a vineyard area of 145,000 ha. This vine crop is usually very sensitive to local condition changes and agronomic practices; therefore, strategies to counteract the expected future decrease in water level for agricultural irrigation, temperature increase, extreme water stress (abiotic stress), as well as increase in pathogenic diseases (biotic stress) related to climate change will be of vital importance for this crop. Studies carried out in recent years have suggested that arbuscular mycorrhizal fungi (AMF) can provide key ecosystem services to host plants, such as water uptake implementation and enhanced absorption of nutrients such as P and N, which are key factors for improving the nutritional status of the vine. AMF use in viticulture will contribute also to sustainable agronomic management and bioprotection against pathogens. Here we will present (1) the current status of grapevines in Chile, (2) the main problems in grapevines related to water stress and associated with climate change, (3) the importance of AMF to face water stress and pathogens, and (4) the application of AMF as a biotechnological and sustainable tool in vineyards.

Publisher

Frontiers Media SA

Subject

Microbiology (medical),Microbiology

Reference120 articles.

1. Efecto nematicida de ocho especies vegetales sobre Xiphinema americanum sensu lato, en Vitis vinifera L. var. cabernet sauvignon en Chile.;Aballay;Nematropica,2001

2. Plant-parasitic nematodes in Chilean vineyards.;Aballay;Nematropica,2009

3. Ecosystem functions of microbial consortia in sustainable agriculture.;Aguilar-Paredes;Agronomy,2020

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