Full Text Available

Access Repository

Note: Clicking the button above will open the full text document at the original institutional repository in a new window.

Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.

Thesis (PhD)--Stellenbosch University, 2016.

Saved in:

Bibliographic Details
Main Author:	Howell, Carolyn Louise
Other Authors:	Hoffman, J. E.
Format:	Thesis
Language:	en_ZA
Published:	Stellenbosch : Stellenbosch University 2016
Subjects:	Vineyard irrigation Management of winery wastewater Hydraulic conductivity of soils Wine sensorial characteristics UCTD
Tags:	Add Tag No Tags, Be the first to tag this record!

_version_	1867613849150029824
access_status_str	Open Access
author	Howell, Carolyn Louise
author2	Hoffman, J. E.
author_browse	Hoffman, J. E. Howell, Carolyn Louise
author_facet	Hoffman, J. E. Howell, Carolyn Louise
author_sort	Howell, Carolyn Louise
collection	Thesis
dc_rights_str_mv	Stellenbosch University
description	Thesis (PhD)--Stellenbosch University, 2016.
format	Thesis
id	oai:scholar.sun.ac.za:10019.1/98625
institution	Stellenbosch University (South Africa)
language	en_ZA
last_indexed	2026-06-10T12:42:40.195Z
license_str	Other — see source repository
provenance_str_mv	Harvested via OAI-PMH from SUNScholar — Stellenbosch University Repository
publishDate	2016
publishDateRange	2016
publishDateSort	2016
publisher	Stellenbosch : Stellenbosch University
publisherStr	Stellenbosch : Stellenbosch University
record_format	dspace
source_str	SUNScholar — Stellenbosch University Repository
spelling	oai:scholar.sun.ac.za:10019.1/98625 Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses. Howell, Carolyn Louise Hoffman, J. E. Myburgh, P. A. Stellenbosch University. Faculty of Agrisciences. Dept. of Soil Science. Vineyard irrigation Management of winery wastewater Hydraulic conductivity of soils Wine sensorial characteristics UCTD Thesis (PhD)--Stellenbosch University, 2016. ENGLISH ABSTRACT: Wine production is an important industry in the Western and the Northern Cape regions of South Africa. Wineries produce large volumes of poor quality wastewater, particularly during harvest. International requirements, as well as national legislation, are putting pressure on wine producers regarding the responsible management of winery wastewater, which may have a large-scale detrimental impact on the environment. Currently, the Department of Water and Sanitation is drafting new legislation aimed at wineries to allow beneficial crop irrigation as a General Authorisation. In this regard, a multidisciplinary research project to investigate the impact of diluted winery wastewater on soils, crop growth and product quality was initiated and funded by the Water Research Commission of South Africa. The project was also co-funded by Winetech and the Agricultural Research Council. The possible re-use of winery wastewater for vineyard irrigation was investigated in a Cabernet Sauvignon vineyard in a sandy soil near Rawsonville in the Breede River Valley. Wastewater obtained from a co-operative winery was diluted to levels of 100, 250, 500, 1000, 1500, 2000, 2500 and 3000 mg/L chemical oxygen demand (COD), using water obtained from the Holsloot River. The dilution was carried out individually for each concentration in 15 m3 tanks at the vineyard. Control grapevines were irrigated with river water. In addition to the field trial, a pot trial was also included to determine the effect of diluted winery wastewater on near-saturation hydraulic conductivity (K) of four different soils. In general, soil potassium and sodium increased with an increase in COD level of the diluted winery wastewater, i.e. a decrease in dilution of the wastewater. Although irrigation using diluted winery wastewater had almost no other effects, element accumulation particularly with respect to potassium and sodium, might be more prominent in soils with higher clay contents or in regions with low winter rainfall. After three years, near-saturation hydraulic conductivity of shale-derived soil, alluvial and aeolian sands decreased with a decrease in the level of wastewater dilution. This indicated that severe degradation in hydraulic properties can occur if diluted winery wastewater is used for irrigation, and might even be aggravated if undiluted winery wastewater is used. Irrigation of grapevines using diluted winery wastewater did not affect grapevine water status, vegetative growth, production or evapotranspiration, irrespective of the level of dilution. Results showed that irrigation of grapevines using diluted winery wastewater did not have detrimental effects on juice characteristics with regard to ripeness parameters and ion content. Wine sensorial characteristics were not affected by irrigation using diluted winery wastewater. The grapevines did not respond to level of COD per se. This indicated that sufficient aeration occurred between irrigations which allowed organic carbon breakdown. Although salinity and sodicity levels in the diluted winery wastewater were below the thresholds where growth and yield reductions are expected for grapevines, it should be monitored frequently. The low salinity and sodicity levels in the diluted winery wastewater could be a further explanation why the grapevines did not respond negatively to the wastewater irrigation. Based on the above-mentioned results, the following criteria should be considered for possible amendments to the General Authorisations for wineries when using diluted wastewater for vineyard irrigation: (i) COD must be diluted to 3000 mg/L or less, preferably to less than 2000 mg/L to avoid unpleasant odours in the vineyard during irrigations, (ii) electrical conductivity (ECiw) must be less than 0.75 dS/m, (iii) sodium adsorption ratio (SARiw) must be less than 5, (iv) the soil must have a low cation exchange capacity, (v) unrestricted internal drainage in the root zone, (vi) irrigation water must not percolate beyond the root depth, (vii) only micro-sprinklers should be used, (viii) irrigation must be applied in such a way that bunches are not wetted, (ix) at least 50% plant available water depletion should be allowed between irrigations to allow sufficient aeration for oxidation of organic material applied via the irrigation water and (x) irrigation frequency and volumes must be such that wine quality is not reduced. AFRIKAANSE OPSOMMING: Die produksie van wyn is ŉ belangrike industrie in die Wes- en Noordkaap streke van Suid-Afrika. Kelders produseer groot volumes swak gehalte afvalwater, veral tydens oes. Aangesien kelderafvalwater ŉ grootskaalse nadelige impak op die omgewing kan hê, word daar hoë internasionale vereistes, sowel as druk deur nasionale wetgewing op wynprodusente geplaas om kelderafvalwater verantwoordelike te bestuur. Die Departement van Water en Sanitasie is tans besig om nuwe wetgewing te formuleer wat daarop gemik is om kelders deur middel van ŉ Algemene Magtiging toe te laat om voordelige gewasse te besproei met afvalwater. ŉ Multidissiplinêre navorsingsprojek om die impak van verdunde kelderafvalwater op gronde, gewas groei en produk gehalte te ondersoek is deur die Water Navorsing Kommissie van Suid-Afrika geïnisieer en befonds. Die projek is ook gedeeltelik deur Winetech en die Landbou Navorsingsraad befonds. Die moontlike hergebruik van kelderafvalwater vir wingerdbesproeiing is in ŉ Cabernet Sauvignon wingerd in ŉ sandgrond naby Rawsonville in die Breede Rivier Vallei ondersoek. Kelderafvalwater van ŉ koöperatiewe wynkelder was met onbehandelde rivierwater van die Holsloot Rivier verdun tot konsentrasies van 100, 250, 500, 1000, 1500, 2000, 2500 en 3000 mg/L chemiese suurstof aanvraag (chemical oxygen demand in Engels of COD in kort). Die verdunnings is afsonderlik vir elk van die konsentrasies in 15 m3 tenke by die wingerd gedoen. Kontrole wingerdstokke is met die rivierwater besproei. Benewens die veldproef is ŉ potproef ook ingesluit om die effek van verdunde kelderafvalwater op naby versadigde hidrouliese geleiding (K) van vier verskillende tekstuur gronde te bepaal. Oor die algemeen het die kalium- en natriuminhoud van die grond toegeneem met ŉ toename in COD van die verdunde afvalwater, m.a.w. ŉ afname in die verdunning van die afvalwater. Alhoewel besproeiing met verdunde kelderafvalwater byna geen ander effekte gehad het nie, mag element aansameling, veral met betrekking tot kalium en natrium, dalk meer prominent wees in gronde met hoër klei inhoude of in gebiede waar die winter reënval laag is. Na drie jaar het K van die skaliegrond, asook alluviale en eoliese sande afgeneem met ŉ afname in die vlak van afvalwaterverdunning. Dit het daarop gedui dat K drasties kan afneem indien verdunde kelderafvalwater vir besproeiing gebruik sou word, en dat hidroliese eienskappe drasties kan benadeel indien onverdunde kelderafvalwater gebruik word. Besproeiing van wingerdstokke met verdunde kelderafvalwater het nie die wingerd se waterstatus, vegetatiewe groei, produksie of evapotranspirasie beïnvloed nie, ongeag die vlak van verdunning. Besproeiing met verdunde kelderafvalwater het nie suikertoename, totale titreerbare suur en elemente in sap benadeel nie. Derhalwe is die element samestelling en sensoriese gehalte van wyn ook nie nadelig beïnvloed nie. Die wingerdstokke het nie gereageer op COD vlak per se nie. Dit het aangedui dat daar voldoende deurlugting tussen besproeiing toedienings was wat die afbreek van organiese koolstof toegelaat het. Alhoewel die brak- en natriumvlakke in die verdunde kelderafvalwater laer as die drumpelwaardes vir die groei en produksie afnames van wingerdstokke was, moet dit dikwels gemonitor word. Die lae brak- en natriumvlakke in die verdunde kelderafvalwater kan ŉ verdere rede wees vir die gebrek aan wingerdstokke se reaksie op die besproeiing met afvalwater. Op grond van die voorafgaande resultate, behoort die volgende kriteria in aanmerking geneem te word by moontlike aanpassings vir die Algemene Magtigings vir kelders wanneer verdunde afvalwater vir wingerdbesproeiing gebruik word: (i) COD moet tot 3000 mg/L of minder verdun word, verkieslik minder as 2000 mg/L om onaangename ruike in die wingerd tydens besproeiing te vermy, (ii) elektriese geleiding (ECiw) moet minder as 0.75 dS/m wees, (iii) natrium adsorpsie verhouding (NAViw) moet minder as 5 wees, (iv) die grond moet ŉ lae katioonuitruilkapasiteit hê, (v) interne dreinering in die wortelsone moet vrylik kan plaasvind, (vi) besproeiingswater moet nie verby die worteldiepte loog nie, (vii) slegs mikrospuite moet gebruik word, (viii) besproeiing moet op so ŉ manier toegedien word dat die trosse nie benat word nie, (ix) ‘n minimum van 50% plant beskikbare water onttrekking moet gehandhaaf word sodat voldoende deurlugting verkry word sodat oksidasie van organiese materiaal wat deur die besproeiingswater toegedien, kan plaasvind en (x) besproeiingfrekwensies en -volumes moet sodanig wees dat wyngehalte nie benadeel word nie. Doctoral 2016-03-09T14:41:42Z 2016-03-09T14:41:42Z 2016-03 Thesis http://hdl.handle.net/10019.1/98625 en_ZA Stellenbosch University 219 pages : illustrations application/pdf Stellenbosch : Stellenbosch University
spellingShingle	Vineyard irrigation Management of winery wastewater Hydraulic conductivity of soils Wine sensorial characteristics UCTD Howell, Carolyn Louise Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.
title	Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.
title_full	Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.
title_fullStr	Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.
title_full_unstemmed	Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.
title_short	Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.
title_sort	using diluted winery effluent for irrigation of vitis vinifera cv cabernet saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses
topic	Vineyard irrigation Management of winery wastewater Hydraulic conductivity of soils Wine sensorial characteristics UCTD
url	http://hdl.handle.net/10019.1/98625
work_keys_str_mv	AT howellcarolynlouise usingdilutedwineryeffluentforirrigationofvitisviniferacvcabernetsaugvignonandtheimpactthereofonsoilpropertieswithspecialreferencetoselectedgrapevineresponses

Full Text Available

Using diluted winery effluent for irrigation of Vitis Vinifera. Cv. Cabernet Saugvignon and the impact thereof on soil properties with special reference to selected grapevine responses.

Similar Items