terclim by ICS banner
IVES 9 IVES Conference Series 9 REDUCING NITROGEN FERTILIZATION ALTERS PHENOLIC PROFILES OF VITIS VINIFERA L. CV. CABERNET GERNISCHT WINE OF YANTAI, CHINA

REDUCING NITROGEN FERTILIZATION ALTERS PHENOLIC PROFILES OF VITIS VINIFERA L. CV. CABERNET GERNISCHT WINE OF YANTAI, CHINA

Abstract

Nitrogen (N) fertilizer is important for grape growth and the quality of wine. It is essential to address the mismatch between N application and wine composition. Cabernet Gernischt (Vitis vinifera L.), as one of the main wine-grape cultivars in China, was introduced to Yantai wine region in 1892. This grape cultivar is traditionally used for quality dry red wine with fruit, spices aroma, ruby red and full-bo-died wines. In order to regulate vine growth and improve grape and wine quality, Cabernet Gernischt grapevines were subjected to decreased levels of N treatments, compared to normal N supply treatment, during grape growing seasons of 2019 and 2020. Three N application treatments were imposed from leaf development to verasion: The normal N treatment corresponding to the control (N2), reducing N application by half treatment and no N application treatment corresponding to N1 and N0, respectively. Individual phenolics were determined by UHPLC-MS/MS. The result showed that reducing N had si-gnificantly decreased shoot pruning weight and yield, but the effect on fruit ripening was depending on season. N reduction treatment significantly improved wine phenolic parameters including total pheno-lic, tannnins and anthocyanins, and enhanced most of individual anthocyanins, and some non-antho-cyanin phenolics especially stibenes including piceatannol, trans-resveratrol and polydatin, regardless of season. The overall results highlighted the importance of reducing N application during grape growing season in modifying wine phenolic profiles.

 

1. Yang Z. W., Wang S. Y., Qi P. Y., Zhang A., Li X., Wang F., Zhang J. J. (2019). Establishment of ultra-high performance liquid chromatographytandem mass spectrometry method for determination of 29 monophenols in wine[J]. Food Science, 40(24), 214-219. (in Chinese with English abstract)
2. Jin G., Yang Z. W., Wang S. Y., Ma W., Zhang J. J., Zhang A., Zhang J.X. Establishment of ultra performance liquid chromato-graphy-tandem mass spectrometry method for determination of 18 individual anthocyanins in wine[J]. Food Science, 2019, 40(18), 229-235. (in Chinese with English abstract)
3. Walker, H. V., Jones, J. E., Swarts, N. D., & Kerslake, F. (2022). Manipulating Nitrogen and Water Resources for Improved Cool Climate Vine to Wine Quality. American Journal of Enology and Viticulture, 73 (1), 11-25.
4. Soubeyrand E, Basteau C, Hilbert G, van Leeuwen C, Delrot S, Gomès E (2014) Nitrogen supply afects anthocyanin biosynthe-tic and regulatory genes in rapevine cv Cabernet-Sauvignon berries. Phytochemistry 103:38–49.
5. Tian, T., Ruppel, M., Osborne, J., Tomasino, E., & Schreiner, R. P. (2022). Fertilize or Supplement: The Impact of Nitrogen on Vine Productivity and Wine Sensory Properties in Chardonnay. American Journal of Enology and Viticulture, 73 (3), 156-169

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Jianqiang Song 1, 2, 3, Ang Zhang2, 4, Fei Gao³, Mingqing Li³, Xianhua Zhao⁵, Jie Zhang³, Genjie Wang³, Yuping Hou¹, Shiwei Cheng¹, Huige Qu¹, Shili Ruan³, Jiming Li³

1. School of Life Sciences, Ludong University, Yantai 264025, China
2. Hebei Key Laboratory of Wine Quality & Safety Testing, Qinhuangdao 066004, China
3. Yantai Changyu Group Corporation Ltd., Shandong Provincial Key Laboratory of Wine Microbial Fermentation Technology, Yantai 264001, China
4. Technology Centre of Qinhuangdao Customs, Qinhuangdao 066004, China
5. College of Life Sciences and Enology, Taishan University, Taian 271021, China

Contact the author*

Keywords

Cabernet Gernischt, Vitis vinifera, Nitrogen, Phenolic composition

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

YEAST DERIVATIVE PRODUCTS: CHARACTERIZATION AND IMPACT ON RIBOFLAVIN RELEASE DURING THE ALCOHOLIC FERMENTATION

Light-struck taste (LST) is a wine fault that can occur in white and sparkling wines when exposed to light. This defect is mainly associated to the formation of methanethiol and dimethyl disulfide due to light-induced reactions involving riboflavin (RF) and methionine [1]. The presence of RF in wine is mainly due to the metabolism of yeast [2] which fermenting activity can be favoured by using yeast derivative products (YDPs) as nutrients. Nonetheless, a previous study showed the addition of YDPs before the alcoholic fermentation (AF) led to higher concentrations of RF in wines [3]. Due to the widespread use of YDPs in the winemaking process, this study aimed to understand the possible relation between the content of RF in wine and the YDP adopted as nutrient for AF.

EVALUATION OF INDIGENOUS SACCHAROMYCES CEREVISIAE ISOLATES FOR THEIR POTENTIAL USE AS FERMENTATION STARTERS IN ASSYRTIKO WINE

Assyrtiko is a rare ancient grape variety that constitutes one of the most popular in Greece. The objective of the current research was to evaluate indigenous Saccharomyces cerevisiae isolates as fermentation starters and also test the possible strain impact on volatile profile of Assyrtiko wine. 163 S. cerevisiae isolates, which were previously selected from spontaneous alcoholic fermentation, were identified at strain level by interdelta-PCR genomic fingerprinting. Yeasts strains were examined for their fermentative capacity in laboratory scale fermentation on pasteurized Assyrtiko grape must.

FLAVANOL COMPOSITION OF VARIETAL AND BLEND WINES MADE BEFORE AND AFTER FERMENTATION FROM SYRAH, MARSELAN AND TANNAT

Background: The Flavan-3-ol extraction from grape skin and seed during red-winemaking and their retention into wines depend on many factors, some of which are modified in the winemaking of blend wines. Recent research shows that Marselan, have grapes with high proportion of skins with high concentrations of flavanols, but produces red-wines with low proportion of skin derived flavanols, differently to the observed in Syrah or Tannat. But the factors explaining these differences are not yet understood.

ADDITION OF OAK WOOD ALTERNATIVE PRODUCTS: QUALITATIVE AND SENSORIAL EFFECTS FOR A WHITE WINE OF ALIGOTE

Wines matured in contact with wood are extremely popular with consumers all over the world. Oak wood allows the organoleptic characteristics of wine to be modified. Wines are enriched with volatile and non-volatile compounds extracted from the wood. The aromas extracted from oak wood contribute to the construction of the wine’s aromatic profile and the main polyphenols extracted can modify taste perceptions such as astringency and bitterness. All the compounds extracted from the wood thus contribute to the balance and quality of the wines.

MODELLING THE AGEING POTENTIAL OF SYRAH RED WINES BY ACCELERATED AGEING TESTS: INFLUENCE OF ANTIOXIDANT ASSAYS AND PHENOLIC COMPOSITION

Red wine ageing is an important step in the red wine evolution and impacts its chemical and sensory characteristics through many chemicals and physico-chemical reactions. The kinetics of these evolutions depend on the wine studied and influence the wine ageing potential. Generally, high quality red wines require a longer period of bottle ageing before consumption¹. The ageing potential is an impor-tant parameter for wine quality and is related to the capacity of a wine to undergo oxidation over time². Phenolic compounds which are ones of the main substrates for oxidation can then potentially modulate ageing potential³.