References
- Arrobas M, Ferreira IQ, Freitas S, Verdial J, Rodrigues MA. 2014. Guidelines for fertilizer use in vineyards based on nutrient content of grapevine pares. Sciential Hortic. 172:191–198. doi: 10.1016/j.scienta.2014.04.016
- Bramley RGV. 2005. Understanding variability in winegrape production systems. 2. Within vineyard variation in quality over several vintages. Aust J Grape Wine Res. 11:33–42. doi: 10.1111/j.1755-0238.2005.tb00277.x
- Bramley RGV, Ouzman J, Boss PK. 2011. Variation in vine vigour, grape yield and vineyard soils and topography as indicators of variation in the chemical composition of grapes, wine and wine sensory attributes. Aust J Grape Wine Res. 17:217–229. doi: 10.1111/j.1755-0238.2011.00136.x
- Bremner JM, Mulvaney CS. 1982. Nitrogen-total. In: Page AL, et al. editor. Methods of soil analysis. Part 2 Chemical and microbiological properties. Madison, WI: American Society of Agronomy; p. 595–624.
- Cohen SD, Kennedy JA. 2010. Plant metabolism and the environment: implications for managing phenolics. Crit Rev Food Sci. 50:620–643. doi: 10.1080/10408390802603441
- Cornelis van L, Philippe F, Xavier C, Oliver T, Stephanos K, Denis D. 2004. Influence of climate, soil, and cultivar on terroir. Am J Enol Viticult. 55:207–217.
- Downey MO, Dokoozlian NK, Krstic MP. 2006. Cultural practice and environmental impacts on the flavonoid composition of grapes and wine: a review of recent research. Am J Enol Viticult. 57:257–268.
- Guan SY. 1986. Research methods on soil enzyme activity. Beijing: China Agricultural Press. (in Chinese with English abstract).
- International Organisation of Vine and Wine (OIV). 2017. Globe economic vitiviniculture data [EB/OL]. http://oiv.int/public/medias/5686/ptconj-octobre2017-en.pdf.
- Jermini M, Blaise P, Gessler C. 2010. Quantitative effect of leaf damage caused by downy mildew (Plasmopara viticola) on growth and yield quality of grapevine ‘Merlot” (Vitis vinifera). Vitis. 49(2):77–85.
- Jiang B, Zhang ZW. 2012. Comparison on phenolic compounds and antioxidant properties of Cabernet Sauvignon and merlot wines from four wine grape-growing regions in China. Molecules. 17:8804–8821. doi: 10.3390/molecules17088804
- Jiang P, Wang R, Ji LD, Sun Q, Xu XR, Li L. 2016. Study on the application effect of the trace elements on wine grapes in the eastern foot of the Helan mountain. North Horticul. 40(5):22–27. (in Chinese with English abstract).
- Jin ZZ, Lei JQ, Xu XW, Li SY, Fan JL, Zhao SF, Zhou HW, Gu F. 2009. Relationships of soil microbial biomass with soil environmental factors in Tarim Desert highway shelter-forest. Chin J Appl Ecol. 20:51–57. (in Chinese with English abstract).
- Li ZG, Luo YM, Teng Y. 2008. Research methods for soil and environmental microorganism. Beijing: China Agricultural Press. (in Chinese with English abstract).
- Lu RK. 2000. Soil and agro-chemical analytical methods. Beijing: China Agricultural Science and Technology Press. (in Chinese).
- Ma LW, Li JP, Han YJ, Li WC. 2018. Meteorological conditions and rating method of quality formation of ‘Cabernet Sauvignon’ grape in eastern foothills of Helan Mountain. Chin J Eco-Agric. 26(3):453–466. (in Chinese with English abstract).
- Muscas E, Cocco A, Mercenaro L, Cabras M, Lentini A, Porqueddu C, Nieddu G. 2017. Effects of vineyard floor cover crops on grapevine vigor, yield, and fruit quality, and the development of the vine mealybug under a Mediterranean climate. Agric Ecosyst Environ. 237:203–212. doi: 10.1016/j.agee.2016.12.035
- National health commission of the people’s republic of China (NHCPR). 2016. GB 5009.225-2016: Ethyl alcohol measure method for liquor. Beijing: Standards Press of China. (in Chinese with English abstract).
- Nelson DW, Sommers LE. 1982. Total carbon, organic carbon, and organic matter. In: Page AL, RH Keeney DR, editor. Methods of soil analysis, part 2-chemical and microbiological properties. Madison, WI: ASA-SSSA; p. 539–594.
- Noble AC. 1979. Evaluation of Chardonnay wines obtained from sites with different soil compositions. Am J Enol Viticult. 30:217–217.
- Olsen SR, Cole CV, Watanable FS, Dean LA. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. Washington, DC: USDA Circular 939.
- Orak HH. 2007. Total antioxidant activities, phenolics, anthocyanins, polyphenol oxidase activities of selected red grape cultivars and their correlations. Sci Hortic. 111:235–241. doi: 10.1016/j.scienta.2006.10.019
- Pérez-Magariño S, González-Sanjosé ML. 2003. Application of absorbance values used in wineries for estimating CIELAB parameters in red wines. Food Chem. 81:301–306. doi: 10.1016/S0308-8146(02)00509-5
- Picard D, Moreira CN, Loloum T. 2018. Wine magic consumer culture, tourism, and terroir. J Anthropol Res. 74:526–540. doi: 10.1086/699943
- Prado RA, Yuste-Rojas M, Sort X, Andreä S-Lacueva C, Torres M, Rosa ML. 2007. Effect of soil type on wines produced from Vitis vinifera L. Cv. Grenache in commercial vineyards. J Agric Food Chem. 55:779–786. doi: 10.1021/jf062446q
- Qi YB, Chen T, Pu J, Yang FQ, Shukla MK, Chang QR. 2018. Response of soil physical, chemical and microbial biomass properties to land use changes in fixed desertified land. Catena. 160:339–344. doi: 10.1016/j.catena.2017.10.007
- Qi YB, Yang FQ, Shukla MK, Pu J, Chang QR, Chu WL. 2015. Desert soil properties after thirty years of Vegetation Restoration in Northern Shaanxi Province of China. Arid Land Res Manage. 29:454–472. doi: 10.1080/15324982.2015.1030799
- Rankine B, Fornachon B, Boehm E, Cellier K. 1971. Influence of grape variety, climate and soil on grape composition and on the composition and quality of table wines. Vitis. 10:33–50.
- Rapisarda P, Tomaino A, Lo Cascio R, Bonina F, De Pasquale A, Saija A. 1999. Antioxiadant effectiveness as influenced by phenolic content of fresh orange juices. J Agri Food Chem. 47:4718–4723. doi: 10.1021/jf990111l
- Ricardo-Rodrigues S, Laranjo M, Coelho R, Martins P, Rato AE, Vaz M, Valverde P, Shahidian S, Vestia J, Agulheiro-Santos AC. 2019. Terroir influence on quality of ‘Crimson’ table grapes. Sci Hortic. 245:244–249. doi: 10.1016/j.scienta.2018.10.035
- Schreiner RP, Scagel CF, Lee J. 2013. N, P and K supply to Pinot noir grapevines: impact on berry phenolics and free amino acids. Am J Enol Viticult. 65:43–49. doi: 10.5344/ajev.2013.13037
- Song JQ, Qu HG, Liang HZ, Zhai RY, Jiang WG, Shen ZY, Duan CQ, Li JM. 2018. Correlation analysis between soil indicators and physicchemical indexes of wine composition in “Cabernet Gernischt” vineyard. Acta Agric Bor Sin. 27:863–870. (in Chinese with English abstract).
- Trought MCT, Dixon R, Mills T, Greven M, Agnew R, Mauk JL, Praat JP. 2008. The impact of differences in soil texture within a vineyard on vine vigour, vine earliness and juice composition. J Int Sci Vigne Vin. 42:67–72.
- Wang H. 1999. Experimental handle book for vine and wine detection. Xi’an: Xi’an Maps Press. (in Chinese with English abstract).
- Wang HA, Li JM, Jiang WG, Gao M, Liang HZ. 2013. Effects of different soil textures on wine quality of Cabernet Gernischt. Sino Grape Wine. 4:24–27.
- Wang R, Ma L, Li L, Gu X, Sun Q. 2017. Influence of different fertilization treatments on soil fertility and wine grapes composition. North Horticul. 18:121–126. (in Chinese with English abstract).
- Wang R, Sun Q, Chang QR. 2015. Soil types effect on grape and wine composition in Helan mountain area of Ningxia. PLoS ONE. 10:e0116690. doi: 10.1371/journal.pone.0116690
- Wang R, Sun Q, Guo J, Zhang XJ, Chang QR. 2012. Influence of irrigation and fertilization on the wine grape growth, yield and quality. Agric Res Arid Area. 30:123–127. (in Chinese with English abstract).
- Žežlina I, Skvarc A, Bohinc T, Trdan S. 2013. Testing the efficacy of single applications of five insecticides against Scaphoideus titanus on common grapevines. Int J Pest Manage. 59(1):1–9. doi: 10.1080/09670874.2012.735378
- Žežlina I, Skvarc A, Rusjan D, Trdan S. 2010. The efficacy of different spraying programs against two fungal pathogens in organic grape production. J Plant Dis Prot. 117(5):220–225. doi: 10.1007/BF03356364