Estimation of soil mobilization rates by a rainy period and intense tillage practices in vineyards—A case study in the Maule region (Chile)

Lozano‐Parra, Javier; Maldonado‐Clavelle, Camila F.; Caballero‐Calvo, Andrés; Pulido-Fernández, Manuel; Gyasi‐Agyei, Yeboah; Rodrigo‐Comino, Jesús

doi:10.1002/hyp.14829

Cited by 3 publications

(1 citation statement)

References 65 publications

(72 reference statements)

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“…In the case of viticultural systems, the SOM depletion has been especially severe [123,124] because vineyards have been overall traditionally developed on sloping lands subjected to sustained conventional tillage, thus becoming highly erodible [24,[125][126][127][128]. Indeed, in areas under the Mediterranean climate, i.e., where a good deal of the World's wine growing takes place, soil water erosion in vineyards attains high rates [129] due to the Mediterranean-characteristic intense rainfalls [130,131], evident in remarkable topsoil thinning [123] and even soil truncation [132]. Since SOM is usually highest in the topsoil and exponentially decreases with depth [133][134][135], topsoil thinning and soil truncation mean a severe loss of SOM.…”

Section: Dynamics Of Winegrowing Systems and Levels Of Soil Organic M...mentioning

confidence: 99%

The Health of Vineyard Soils: Towards a Sustainable Viticulture

Visconti,

López,

Olego

2024

Horticulturae

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Soil health encompasses the effects the uppermost part of the land have on human wellbeing in a broad sense, because soil is where most food ultimately comes from, and because it more inconspicuously fulfils other ecological functions, as important as feeding, for our planet’s welfare, which is ours. Viticulture exploits the soil’s resources from which wine, its most valuable produce, boasts to obtain some of its unique quality traits, which are wrapped within the terroir concept. However, using conventional methods, viticulture also has harsh impacts on the soil, thus jeopardizing its sustainability. How long will the terroir expression remain unchanged as vineyard soil degradation goes on? While this question is difficult to answer because of the complex nature of terroirs, it is undeniable that conventional soil management practices in viticulture leave, in general, ample room for improvement, in their impact on vineyards as much as on the environment. In response, viticulture must adopt practices that enable the long-lasting preservation of its grounds for both on-farm and off-farm benefits. In this regard, the increase in the soil’s organic matter alongside the enhancement of the soil’s biological community are key because they benefit many other soil properties of a physical, chemical, and biological nature, thus determining the soil’s healthy functioning, where the vines may thrive for a long time, whereas its surroundings remain minimally disturbed. In the present review, the importance of soil health as it relates to vineyards is discussed, the soil degradation factors and processes that threaten winegrowing areas are presented, successful soil-health enhancement practices are shown, and future research trends are identified for the benefit of researchers and stakeholders in this special agricultural industry.

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Section: Dynamics Of Winegrowing Systems and Levels Of Soil Organic M...mentioning

confidence: 99%

The Health of Vineyard Soils: Towards a Sustainable Viticulture

Visconti,

López,

Olego

2024

Horticulturae

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Evaluating temporal sand drift potential trends in the Sistan region, Southeast Iran

Rahdari,

Caballero-Calvo,

Kharazmi

et al. 2023

Environ Sci Pollut Res

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The Sistan region located in Southeastern Iran is one of the most sensitive areas related to sandstorms and wind erosion in the world. It is well-known that one of the most influential factors in sandstorm interpretation is sand drift potential (SDP), which is directly related to wind speed.However, accurate monitoring of this phenomenon are scarce considering different temporal scales. Therefore, the main aim of this research is to analyze the trend of SDP on monthly and annual scales. Our results showed that monthly variations of SDP obtained the highest and lowest values in July (609 VU) and January (47 VU), respectively. Quicksand moved to the southeast, as well as the directional index fluctuated from 0.88 to 0.94. The annually SDP was equal to 2700 VU, which represents a relatively high value compared to other arid regions of the world. The results of trend analysis applying the Mann-Kendall test showed that there is a positive (1987)(1988)(1989)(1990)(1991)(1992)(1993)(1994)(1995)(1996)(1997)(1998)(1999)(2000)(2001) and negative (2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015)(2016) trend, but the positive trend is not significant. Furthermore, the results of Sen's slope test demonstrated that the negative trend could be obtained with a higher slope during July, September, and Au-gust; as well a positive trend could be obtained with a higher slope during November, December, and June. We concluded that land managers and stakeholders that are in charge to control quicksand using biological and physical methods should pay attention to these trends in arid environment to apply nature-based solutions or control strategies focusing on these temporal sequences.

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Evaluating temporal trends of sand drift potential in Southeast arid areas of Iran, Sistan region

Rahdari

Caballero‐Calvo

Kharazmi

et al. 2023

Preprint

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The Sistan region located in Southeastern Iran is one of the most sensitive areas related to sandstorms and wind erosion in the world. It is well-known that one of the most influential factors in sandstorm interpretation is sand drift potential (SDP), which is directly related to wind speed. However, accurate monitoring of this phenomenon are scarce considering different temporal scales. Therefore, the main aim of this research is to analyze the trend of SDP on monthly and annual scales. Our results showed that monthly variations of SDP obtained the highest and lowest values in July (609 VU) and January (47 VU), respectively. Quicksand moved to the southeast, as well as the directional index fluctuated from 0.88 to 0.94. The annually SDP was equal to 2700 VU, which represents a relatively high value compared to other arid regions of the world. The results of trend analysis applying the Mann–Kendall test showed that there is a positive (1987–2001) and negative (2002–2016) trend, but the positive trend is not significant. Furthermore, the results of Sen’s slope test demonstrated that the negative trend could be obtained with a higher slope during July, September, and Au-gust; as well a positive trend could be obtained with a higher slope during November, December, and June. We concluded that land managers and stakeholders that are in charge to control quicksand using biological and physical methods should pay attention to these trends in arid environment to apply nature-based solutions or control strategies focusing on these temporal sequences.

show abstract

Estimation of soil mobilization rates by a rainy period and intense tillage practices in vineyards—A case study in the Maule region (Chile)

Cited by 3 publications

References 65 publications

The Health of Vineyard Soils: Towards a Sustainable Viticulture

The Health of Vineyard Soils: Towards a Sustainable Viticulture

Evaluating temporal sand drift potential trends in the Sistan region, Southeast Iran

Evaluating temporal trends of sand drift potential in Southeast arid areas of Iran, Sistan region

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