<scp>Prevention of drought damage through zeolite treatments on</scp><i>Vitis vinifera</i>: A <scp>promising sustainable solution for soil management</scp>

Cataldo, Eleonora; Puccioni, Sergio; Eichmeier, Aleš; Storchi, Paolo

doi:10.1111/sum.13036

Soil Use and Management

2024

DOI: 10.1111/sum.13036

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Prevention of drought damage through zeolite treatments onVitis vinifera: A promising sustainable solution for soil management

Eleonora Cataldo,

Sergio Puccioni,

Aleš Eichmeier

et al.

Abstract: Viticultural activity is intrinsically interlocked with climatic fluctuations and awful subjected to soil management. Increasing temperatures and reduced precipitation originate several alterations in the metabolic plant pathway and a depletion in grapes quality. The main aspiration of soil management is to keep and retain a microenvironment that considers all vine requirements to upgrade the balance between vegetative growth and cluster quality intensifying its resilience towards abiotic stress. Aiming to est… Show more

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Cited by 3 publications

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Wine grape grower perceptions and attitudes about soil health

Gonzalez-Maldonado,

Nocco,

Steenwerth

et al. 2024

Journal of Rural Studies

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Wine grape grower perceptions and attitudes about soil health

Gonzalez-Maldonado,

Nocco,

Steenwerth

et al. 2024

Journal of Rural Studies

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The role of natural and synthetic zeolites as soil amendments for mitigating the negative impacts of abiotic stresses to improve agricultural resilience

Javaid,

Munir,

Abideen

et al. 2024

Plant Stress

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Inter‐row soil management affecting soil moisture in non‐irrigated vineyard ecosystems: A meta‐analysis

Horel,

Bakacsi,

Vass

et al. 2024

Soil Use and Management

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Soil moisture or soil water content (SWC) is crucial for ecosystem functioning, affecting plant health and soil quality. Imbalances in soil moisture can result in reduced fruit production and altered soil biotic and abiotic parameters. Vineyards, especially those located on sloping terrains, or in less fertile soils, are highly susceptible to these issues. An effective nature‐based solution to reduce erosion, improve soil health and increase the biodiversity of soils in vineyards is implementing green cover in the inter‐row spaces. However, trade‐offs related to green cover management need to be carefully evaluated to ensure optimal outcomes. Therefore, we conducted a literature review and a meta‐analysis to analyse how soil water content changes when a green cover (perennial grass or cover crops) management method is used in a vineyard compared to no vegetation or tilled inter‐rows. We found 70 data sets concerning soil water content (SWC) in non‐irrigated vineyards involving tillage and green cover. The data revealed that SWC enhancement depends on the type of green cover, as perennial grass (GC) tended to increase SWC (on average by 15%), whereas cover crops (CC) decreased overall SWC (on average by 20%). Sub‐humid climates showed 35%–73% higher SWC compared to semi‐arid research sites. Temperature zones also revealed that the lower (<12°C) average annual air temperature sites had the highest SWC. In general, the highest average SWC in GC also included the highest soil organic carbon (SOC) content and the lowest average bulk density (1.41 g cm−3) in the data set. However, changes in overall bulk density values were not significant among inter‐row soil management. We found that green cover generally increases penetration resistance (22% for GC and 61% for CC) and reduces the saturated hydraulic conductivities of the soils (i.e. 30% for GC and 79% for CC). However, our data set shows high deviations between research sites' values and climatic conditions, and while there are numerous benefits of green cover use in vineyard inter‐rows, site‐specific assessment is highly recommended prior to making changes in management practices.

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Prevention of drought damage through zeolite treatments onVitis vinifera: A promising sustainable solution for soil management

Cited by 3 publications

References 124 publications

Wine grape grower perceptions and attitudes about soil health

Wine grape grower perceptions and attitudes about soil health

The role of natural and synthetic zeolites as soil amendments for mitigating the negative impacts of abiotic stresses to improve agricultural resilience

Inter‐row soil management affecting soil moisture in non‐irrigated vineyard ecosystems: A meta‐analysis

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