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W2918166275 endingPage "85" @default.
W2918166275 startingPage "72" @default.
W2918166275 abstract "The effect of soil on wine composition and flavor is controversially discussed in viticulture. Mineral nutrition of the grapevine is one possibility for an influence of soil chemistry on winemaking. However, effects of soil chemistry are difficult to isolate from other physical and biological factors. Here two winegrowing plots in the Soave region (Italy) were investigated, lying side by side on contrasted soil types. Factors that influenced soil formation and characterize soil chemistry and mineralogy were determined. The influence of soil type on the elemental composition (Mg, Al, P, S, K, Ca, Mn, Fe, Cu, Zn, Sr, Mo and Ba) of leaves and grapes was studied. Carbon isotope ratios were measured to evaluate water stress. Radiogenic Sr and stable Cu isotope ratios were studied to identify the influence of different bedrocks and better understand the mechanisms involved in the soil-to-grape continuum. Even though the morphology of soils is different, chemical characteristics are similar in both vineyard plots. Nevertheless, Sr isotope ratios of horizons of both soils show influence of different bedrocks on their genesis. The composition of grapevine plants is similar between both plots even though there is a tendency for higher elemental contents on more calcareous soil. Finally, isotope ratios show that different mechanisms control Cu and Sr in plant: Cu seems to be controlled by regulation mechanisms of the plants whereas Sr is absorbed in ratios similar to the soil, reflecting the different geological origins." @default.
W2918166275 created "2019-03-02" @default.
W2918166275 creator A5008856515 @default.
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W2918166275 creator A5058885459 @default.
W2918166275 creator A5060541064 @default.
W2918166275 creator A5071479372 @default.
W2918166275 creator A5074579866 @default.
W2918166275 date "2019-06-01" @default.
W2918166275 modified "2023-10-12" @default.
W2918166275 title "Contribution of soil elemental contents and Cu and Sr isotope ratios to the understanding of pedogenetic processes and mechanisms involved in the soil-to-grape transfer (Soave vineyard, Italy)" @default.
W2918166275 cites W143035151 @default.
W2918166275 cites W1489092462 @default.
W2918166275 cites W1495349330 @default.
W2918166275 cites W1563746492 @default.
W2918166275 cites W1573518703 @default.
W2918166275 cites W1963602173 @default.
W2918166275 cites W1965791645 @default.
W2918166275 cites W1973668544 @default.
W2918166275 cites W1978979546 @default.
W2918166275 cites W1979553373 @default.
W2918166275 cites W197980189 @default.
W2918166275 cites W1992524464 @default.
W2918166275 cites W1994135437 @default.
W2918166275 cites W1997137838 @default.
W2918166275 cites W2007233299 @default.
W2918166275 cites W2007904247 @default.
W2918166275 cites W2008499497 @default.
W2918166275 cites W2014881631 @default.
W2918166275 cites W2018376581 @default.
W2918166275 cites W2018671234 @default.
W2918166275 cites W2019356324 @default.
W2918166275 cites W2020576295 @default.
W2918166275 cites W2021460690 @default.
W2918166275 cites W2030439160 @default.
W2918166275 cites W2040144645 @default.
W2918166275 cites W2042480613 @default.
W2918166275 cites W2046513308 @default.
W2918166275 cites W2046860053 @default.
W2918166275 cites W2047062196 @default.
W2918166275 cites W2047924720 @default.
W2918166275 cites W2049472171 @default.
W2918166275 cites W2051771373 @default.
W2918166275 cites W2053740874 @default.
W2918166275 cites W2054814180 @default.
W2918166275 cites W2055691296 @default.
W2918166275 cites W2057903197 @default.
W2918166275 cites W2058390545 @default.
W2918166275 cites W2060384792 @default.
W2918166275 cites W2062875972 @default.
W2918166275 cites W2064372018 @default.
W2918166275 cites W2069297214 @default.
W2918166275 cites W2081279988 @default.
W2918166275 cites W2084858236 @default.
W2918166275 cites W2095174090 @default.
W2918166275 cites W2102484660 @default.
W2918166275 cites W2104689042 @default.
W2918166275 cites W2117208097 @default.
W2918166275 cites W2120945229 @default.
W2918166275 cites W2140495719 @default.
W2918166275 cites W2143559163 @default.
W2918166275 cites W2143804637 @default.
W2918166275 cites W2150016885 @default.
W2918166275 cites W2151202430 @default.
W2918166275 cites W2155983721 @default.
W2918166275 cites W2157996918 @default.
W2918166275 cites W2159018127 @default.
W2918166275 cites W2159391642 @default.
W2918166275 cites W2168725060 @default.
W2918166275 cites W2300091765 @default.
W2918166275 cites W2312112874 @default.
W2918166275 cites W2317477211 @default.
W2918166275 cites W2324339509 @default.
W2918166275 cites W2325273449 @default.
W2918166275 cites W2327120362 @default.
W2918166275 cites W2333218870 @default.
W2918166275 cites W2507985545 @default.
W2918166275 cites W2524010943 @default.
W2918166275 cites W2566676043 @default.
W2918166275 cites W2620738522 @default.
W2918166275 cites W2734232183 @default.
W2918166275 cites W2737141043 @default.
W2918166275 cites W2742622297 @default.
W2918166275 cites W2769691675 @default.
W2918166275 cites W2770136337 @default.
W2918166275 cites W2772525232 @default.
W2918166275 cites W2791194309 @default.
W2918166275 cites W2792192669 @default.
W2918166275 cites W2792577104 @default.
W2918166275 cites W2887723703 @default.
W2918166275 cites W4312774102 @default.
W2918166275 cites W908035187 @default.
W2918166275 cites W984272827 @default.
W2918166275 doi "https://doi.org/10.1016/j.geoderma.2019.02.015" @default.
W2918166275 hasPublicationYear "2019" @default.