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Isolation and characterisation of the antimicrobial peptides produced by acetic acid bacteriaOelofse, Adriaan 03 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: Wine quality is greatly influenced by the number of microorganisms, which occur
throughout the winemaking process. Yeasts are responsible for the alcoholic
fermentation, the lactic acid bacteria (LAB) are responsible for malolactic
fermentation (MLF), while acetic acid bacteria (AAB) are responsible for converting
ethanol to acetic acid. These microorganisms are present on the grapes and in the
cellar and these consequently serve as gateways to the fermentation tanks where
they will affect the wine quality. However, these microorganisms can be seen either
as beneficial or as wine spoilage microorganisms, depending on the conditions that
prevail throughout the winemaking process. It is thus very important to prevent any
process that could lead to the lowering of the wine quality. In this regard, some of the
factors that should always be evaluated include the quality of the grapes, winemaking
techniques and quality control.
One of the measures that have been implemented during winemaking to ensure
the microbial stability is the use of chemical preservatives. Sulphur dioxide (502) has
been, and is, used widely as primary preservative in winemaking. However, an
ever-increasing consumer resistance against the use of chemical preservatives has
developed as it poses possible health risks and decreases the sensorial quality of
wine. An alternative approach to chemical preservation that has triggered numerous
new investigations, is biological preservation or biopreservation. This is the use of the
natural microbial flora and/or their antimicrobial products, such as bacteriocins, to
inhibit or destroy the other sensitive microorganisms that are unwanted in the same
environment.
Evidence in the wine industry has shown that bacterial spoilage still is a very
common problem in many wineries. This bacterial spoilage can lead to, amongst
other, two main problems, which are of great concern to winemakers. This include
high levels of volatile acidity, resulting in the wine having a vinegary off-flavour, and
sluggish/stuck fermentation, which is the result of compounds such as acetic- and
other fatty acids that causes inhibition of the yeast's growth. With acetic acid being
the common link in both cases, it became evident that investigations should be
performed on the main producer of acetic acid, namely AAB. As a result, AAB turned
out to be one of the main spoilage microorganisms associated with winemaking.
Most of the research on biopreservation in the food and beverage industry has
been performed on the Gram-positive LAB. The fact that their spectrum of inhibition
currently excludes most Gram-negative bacteria, specifically AAB, indicated that AAB
should be screened in search of possible antimicrobial compounds that could be
applied to control their cell numbers during winemaking. No evidence of antimicrobial
action amongst AAB could be found in literature, therefore this work was considered
novel.
The main objectives of this study were to screen wine isolates of AAB for the
production of antimicrobial compounds. This was followed by the isolation and preliminary characterisation of the antimicrobial substances produced. Various
attempts to optimise the production of the antimicrobial compounds and isolation
procedures, were also included. This study forms part of a larger research
programme that has been initiated at the Institute for Wine Biotechnology at
Stellenbosch University on the biopreservation in wine.
Our results indicated that possible antimicrobial compounds of proteinaceous
nature, produced by AAB isolated from wine, do exist. It was found that two different
species of AAB, namely Acetobacter aeeti and Gluconobacter frateurii, produced
antimicrobial compounds that inhibited other species of AAB. Preliminary results
indicated that these compounds are heat sensitive and stable in a wide pH range. It
was also shown that after the action of proteolytic enzymes, such as proteinase K
and a-chemotrypsin, all inhibitory activity was lost. This study also revealed the
existence of the species Gluconobacter frateurii, which have not yet been associated
with the winemaking environment.
This study made a valuable contribution to the limited amount of information and
understanding of AAB, not only in the wine environment, but also elsewhere. The
results and findings of this research would serve as platform for further projects. This
might soon lead to the development of antimicrobial substances or tailored
wine-yeasts with antimicrobial abilities, which can be applied during winemaking to
assist the winemaker in combatting high cell numbers and subsequent spoilage by
AAB. / AFRIKAANSE OPSOMMING: Wynkwaliteit word beïnvloed deur 'n verskeidenheid van mikroorganismes wat
regdeur die wynrnaakproses teenwoordig is. Die giste is vir die alkoholiese
fermentasie, die melksuurbakterieë (MSB) vir die appelmelksuurgisting, terwyl die
asynsuurbakterieë (ASB) vir die omskakeling van etanol na asynsuur verantwoordelik
is. AI hierdie mikroorganismes is teenwoordig op die druiwe en in die kelder, en dit
dien gevolglik as 'n weg waardeur hulle in die fermentasietenke kan kom om
sodoende die wynkwaliteit te beïnvloed. Hierdie mikroorganismes kan egter gesien
word as óf voordelig óf as wynbederfmikroorganismes, afhangende van die
heersende kondisies gedurende die wynrnaakproses. Dit is daarom baie belangrik
om enige proses te voorkom wat tot 'n verlaging in wynkwaliteit kan lei. Wat
laasgenoemde aanbetref, is daar sekere faktore wat altyd geëvalueer moet word,
naamlik die druifkwaliteit, wynrnaaktegnieke en kwaliteitsbeheer.
Een van die maatreëls wat geïmplementeer is om mikrobiologiese stabiliteit
tydens die wynrnaakproses te handhaaf, is die gebruik van chemiese
preserveermiddels. Swaweidioksied (S02) word algemeen gebruik as primêre
preserveermiddel tydens wynrnaak. Daar is egter 'n toenemende
verbruikersweerstand teen die gebruik van chemiese preserveermiddels, aangesien
dit moontlike gesondheidsrisiko's kan inhou, asook tot 'n verlaging in sensoriese
kwaliteit van die wyn kan lei. 'n Alternatiewe benadering vir chemiese preservering,
wat reeds tot verskeie nuwe ondersoeke gelei het, is biologiese preservering of
biopreservering. Dit is die gebruik van die natuurlike mikroflora en/of hulle
antimikrobiese produkte, soos bv. bakteriosiene, om die sensitiewe mikroorganismes
wat in dieselfe omgewing voorkom, se groei te inhibeer óf om hulle dood te maak.
Aanduidings vanuit die wynbedryf dui daarop dat bakteriese bederf steeds 'n
algemene probleem is wat in baie kelders ondervind word. Hierdie bakteriese bederf
kan onder andere twee hoofprobleme veroorsaak, wat 'n groot bekommernis vir
verskeie wynmakers is. Dié probleme sluit in hoë vlakke van vlugtige suurheid, wat
gevolglik die wyn 'n asyn-afgeur gee, en slepende/gestaakte fermentasies, wat die
gevolg is van komponente soos asynsuur en ander vetsure, wat die gis se groei
inhibeer. Die feit dat asynsuur die gemeenskaplike faktor in beide gevalle was, het
daarop gedui dat 'n ondersoek rakende die hoofproduseerder van asynsuur, naamlik
ASB, benodig word. ASB word gevolglik as een van die hoofbederforganismes wat
met die wynrnaakproses geassosieer word, beskou.
Die meeste navorsing oor biopreservering in die voedsel -en drank bedryf is op
die Gram-positiewe MSB gedoen. Die spektrum van inhibisie van die bakteriosiene
van MSB sluit egter die meeste Gram-negatiewe bakterieë uit, veral ASB, en dit dui
daarop dat ASB gesif moet word in 'n soektog na antimikrobiese substanse wat
moontlik gebruik kan word om hul getalle tydens die wynrnaakproses te beheer.
Geen bewyse kon tot dusver uit die literatuur gekry word met betrekking tot antimikrobiese aktiwiteit teen ASB nie, daarom word hierdie navorsing dus as nuut
beskou.
Hierdie studie se hoofdoelwittewas om die wyn-isolate van ASB vir die produksie
van antimikrobiese peptiede te sif. Dit is gevolg deur die isolasie en voorlopige
karakterisering van die geproduseerde antimikrobiese komponente. Daar is ook
verskeie pogings aangewend om die produksie van die antimikrobiese substanse,
asook die isolasieprosedures, te optimiseer. Hierdie studie vorm deel van 'n groter
navorsingsprogram oor biopreservering van wyn wat deur die Instituut vir
Wynbiotegnologie by die Universiteit van Stellenbosch geïnisieer is.
Die resultate het daarop gedui dat antimikrobiese substanse van proteïenagtige
aard, afkomstig vanaf wyn-isolate van ASB, wel bestaan. Daar is gevind dat twee
veskillende spesies, naamlik Aeefobaefer aeefi en Glueonobaefer frafeurii,
antimikrobiese peptiede produseer, wat ander spesies van ASB kan inhibeer.
Voorlopige resultate het getoon dat hierdie substanse hitte-sensitief is en ook stabiel
is oor 'n wye pH-reeks. Daar was ook aanduidings dat, ná die aksie van proteolitiese
ensieme, soos bv. proteïnase K en a-chemotripsien, al die inhibitoriese aktiwiteit
verlore gegaan het. Hierdie studie het ook die voorkoms van die spesies
Glueonobaefer frafeurii aangedui, wat nog nie tot dusver met die wynrnaakomgewing
geassosieer is nie.
Hierdie studie maak 'n waardevolle bydrae tot die beperkte hoeveelheid inligting
oor en begrip van ASB, nie net in die wynomgewing nie, maar ook in die algemeen in
die natuur. Die bevindinge en resultate van hierdie navorsing sal as basis dien vir
verdere projekte wat sal volg. Dit kan moontlik binnekort lei tot die ontwikkeling van
antimikrobiese substanse, en ook pasgemaakte wyngiste met antimikrobiese
vermoëns, wat tydens die wynrnaakproses gebruik kan word om sodoende die
wynmaker in staat te stelom die hoë bakteriese getalle en die gevolglike bederf deur
ASB, te beheer.
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Characterisation, evaluation and use of non-Saccharomyces yeast strains isolated from vineyards and mustJolly, N. P. (Neil Paul) 03 1900 (has links)
Dissertation (PhD)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Wine is the product of a complex biological and biochemical interaction between
grapes and different microorganisms (fungi, yeasts, lactic acid bacteria and acetic
acid bacteria, as well as the mycoviruses and bacteriophages affecting them) in
which yeasts play the most important role regarding the alcoholic (primary)
fermentation. These wine-associated yeasts can be divided into Saccharomyces and
non-Saccharomyces yeasts. During fermentation, there is a sequence of dominance
by the various non-Saccharomyces yeasts, followed by Saccharomyces cerevisiae,
which then completes the fermentation. This is especially evident in spontaneously
fermenting must, which has a low initial S. cerevisiae concentration. Some non-
Saccharomyces yeasts can also be found throughout the fermentation. The non-
Saccharomyces presence in the fermentation can affect wine quality, either positively
or negatively. A positive contribution could be especially useful to improve wines
produced from grape varieties with a neutral flavour profile due to non-optimal
climatic conditions and/or soil types. As part of a comprehensive South African
research programme, the specific objectives of this study were: the isolation of
indigenous non-Saccharomyces yeasts from vineyards and musts; the identification
of these isolates; the characterisation and evaluation of predominant species under
winemaking conditions; and the development of a protocol for their use in enhancing
wine quality.
Initially, 720 isolates representing 24 different species, were isolated from grape
(vineyard) and must samples taken over three vintages from four distinctly different
wine producing regions. The isolates were characterised and grouped utilising
biochemical profiles and DNA karyotyping, whereupon representative isolates were
identified. The yeast species that had the highest incidence of predominance in the
vineyard was Kloeckera apiculafa. However, some vineyard samples were
characterised by low numbers or absence of this yeast, which is not according to
generally accepted norms. Other species that also predominated in a few of the
vineyard samples were Candida pulcherrima, Kluyveromyces thermofolerans,
Rhodotorula sp. and Zygosaccharomyces bailii. Generally, there was a greater
diversity of yeasts in the processed must than from the vineyard samples. Furthermore, while each sample showed a different yeast population, no pattern
linking species to climatic zone was observed.
Four species i.e. Candida collieulosa, Candida pulcherrima, Candida stel/ata and
Kloeckera apiculata, were found to predominate in grape must samples.
Representative strains consequently received further attention during laboratory and
small-scale winemaking trials. A protocol was developed whereby individual species
could be used in co-inoculated fermentations with S. cerevisiae in the small-scale
production of wine. An improvement in wine quality was achieved and it was found
that there was a link between specific species and grape cultivar. The ability of
C. pulcherrima to improve Chenin blanc wine quality was investigated further. Results
over three vintages showed that the wine produced by the co-inoculated fermentation
was superior to that of a reference wine (produced by S. cerevisiae only). The
improvement in wine quality was not linked to increased ester content nor were the
standard chemical analyses adversely affected. The effects of pH and wine
production parameters i.e. 802, fermentation temperature and use of di-ammonium
phosphate (DAP), on this yeast followed the same pattern as that known for
S. cerevisiae. This study was successfully completed and the developed protocol can
be used for the improvement of Chenin blanc wine where additional aroma and
quality is needed. / AFRIKAANSE OPSOMMING: Wyn is die produk van 'n komplekse biologiese en biochemiese interaksie tussen
druiwe en mikroorganismes (swamme, giste, melksuurbakterieë, asynsuurbakterieë,
asook die mikovirusse en bakteriofage wat hul beïnvloed) waar gis die belangrikste
rol speel ten opsigte van die alkoholiese (primêre) fermentasie. Die betrokke giste
kan in Saccharomyces- en nie-Saccharomyces-giste verdeel word. Tydens gisting
vind daar 'n opeenvolging van dominansie deur die verskillende nie-Saccharomyces
giste plaas, gevolg deur Saccharomyces cerevisiae, wat dan die gisting voltooi. Dit is
veral in spontaan fermenterende mos, waarin aanvanklik lae konsentrasies
S. cerevisiae-gisselle voorkom, waarneembaar. Sekere nie-Saccharomyces-giste
kan ook regdeur die verloop van fermentasie gevind word. Die teenwoordigheid van
nie-Saccharomyces-giste kan 'n bydrae maak tot wynkwaliteit, hetsy positief of
negatief. 'n Positiewe bydrae kan veral nuttig wees vir die verbetering van wyn
geproduseer van druifsoorte met neutrale geurprofiele as gevolg van nie-optimale
klimaatstoestande en/of grondtipes. As deel van 'n uitgebreide Suid-Afrikaanse
navorsingsprogram, was die doelwitte van hierdie studie soos volg: die isolasie van
inheemse nie-Saccharomyces-giste vanuit wingerde en mos; die identifikasie van
hierdie isolate; die karakterisering en evaluering van spesies wat tydens
wynbereiding oorheers; en die ontwikkeling van 'n protokol waarin geselekteerde nie-
Saccharomyces-giste gebruik kan word vir die verbetering van wynkwaliteit.
Druif- en mosmonsters is oor drie oestye vanuit vier duidelik onderskeibare
wynproduserende gebiede geneem en 720 isolate, verteenwoordigend van 24
verskillende spesies, is hieruit geïsoleer. Hierdie isolate is volgens biochemiese
profiele en DNA-kariotipering gekarakteriseer en gegroepeer waarna
verteenwoordigende isolate geïdentifiseer is. Die gisspesie wat die meeste in
wingerde voorgekom het, was Kloeckera apiculata. Sommige wingerde is egter deur
lae getalle of afwesigheid van dié gis gekenmerk, In feit wat afwyk van die algemeen
aanvaarde norm. Ander spesies, nl. Candida pulcherrima, Kluyveromyces
thermotolerans, Rhodotorula sp. en Zygosaccharomyces bailii, het ook in enkele
gevalle in die wingerdmonsters oorheers. Oor die algemeen was daar 'n groter
diversiteit van giste in die geprosesseerde mos as in die wingerdmonsters. Verder is elke monster gekenmerk deur verskillende gispopulasies, maar geen verband tussen
gisspesie en klimaatsone is waargeneem nie.
Vier spesies, nl. Candida collieulosa, Candida pulcherrima, Candida stel/ata en
Kloeckera apiculata, het in hoë getalle in die druiwemosmonsters oorheers en
verteenwoordigende rasse het verdere aandag tydens laboratorium- en kleinskaalse
wynmaakproewe geniet. 'n Protokol, waar hierdie rasse individueel gebruik is in
gesamentlike geïnokuleerde fermentasies met S. cerevisiae vir die kleinskaalse
produksie van wyn, is ontwikkel. 'n Verbetering in wynkwaliteit is verkry en daar is 'n
verband tussen spesifieke gisspesies en druifvariëteit gevind. Gevolglik is die vermoë
van C. pulcherrima om die gehalte van Chenin blanc wyn te verbeter, verder
ondersoek.
Resultate oor drie oesjare het gewys dat die wyn wat met die C. pulcherrima /
S. cerevisiae kombinasie geproduseer is, beter was as 'n verwysingswyn (deur slegs
S. cerevisiae geproduseer). Die waargenome verbetering in wynkwaliteit was egter
nie aan 'n verhoging in esterinhoud te danke nie en die standaard chemiese analises
het geen negatiewe afwyking uitgewys nie. Verder is gevind dat die effek van pH en
wynproduksieparameters, nl. die gebruik van S02, fermentasietemperatuur en die
gebruik van di-ammoniumfosfaat (DAP), dieselfde patroon as die bekend vir
S. cerevisiae gevolg het. Die ontwikkelde protokol kan nou aangewend word waar
verhoogde Chen in blanc wynaroma en kwaliteit verlang word.
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Evaluation of the effects of nutrient supplementation on low nitrogen ChardonnaySpecht, Anna Louise 25 May 2000 (has links)
Low nitrogen Chardonnay juice from an Oregon winery was fermented
with a series of nutrient supplements, including diammonium phosphate
(DAP), Fermaid K, Superfood, yeast extract, yeast hulls and thiamine.
These treatments were evaluated for their contribution to the yeast
assimilable nitrogen content (YANC) of the juice, which consists of the
ammonium ion and α-amino acid content by NOPA (nitrogen by ophthaldialdehyde).
The fermentation characteristics and the nutritional
and chemical status of the finished wines were compared.
Diammonium phosphate added 25 mg N/L from ammonia for every
pound/1000 gallons (12.5 g/hL) used. Commercial yeast nutrient
preparations were found to contribute around 10 mg N/L from
ammonium ion per pound/1000 gallons (12.5 g/hL). NOPA and HPLC
analysis of Superfood and Fermaid K indicated that they contributed only a
small amount of amino acids. NOPA analysis of PL-50 yeast extract
indicated that it may have added some nitrogen from amino acids.
Nitrogenous compounds were taken up within the first few days of
fermentation. Ammonium ion was depleted very quickly and did not
reappear later in fermentation. Alpha-amino acids reached a low within
approximately ten days of fermentation, then leveled out or increased
towards the end of fermentation. Treatments containing high amounts of
ammonia were observed to produce the most vigorous fermentations.
These treatments were found to have the highest apparent levels of amino
acids at the end of fermentation. The Control treatment, which had the
lowest YANC content, appeared to utilize proline during fermentation.
Sensory analysis was not conducted on the finished wines due to
replication differences in reduced sulfur aroma found in preliminary
screening. GC-MS analysis showed that the higher nitrogen treatments
had levels of reduced sulfide compounds that were above sensory
threshold, whereas moderate nitrogen treatments did not.
Ethyl carbamate was not found in any of the finished wines.
These data suggest that moderate levels of supplementation had a
positive effect on both fermentation and finished wine quality. Higher
levels of nutrient addition were effective at increasing fermentation rates
but negatively affected the sulfide profile of finished wines. / Graduation date: 2001
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Analysis of Oregon's wholesale demand for California table winesBerkeley, Errol Winston 02 October 1970 (has links)
The passing of the 21st Amendment to the United States Constitution
has given to individual states the authority to regulate the
sale, distribution and taxation of domestically produced wines, and
made the wine trade potentially significant as a means of augmenting
state revenues.
In the state of Oregon, table wines have been taxed at the rate
of 23 cents per gallon irrespective of origin. The objective of this
study has been to evaluate the nature and price elasticity of Oregon's
wholesale demand for California table wines with a view to determine
the effectiveness of the utilization of the tax.
The multiple regression analysis technique is the instrument
used in this determination. A two part statistical model was employed,
but the number of variables used had to be restricted because of
certain data limitations. Only 78 percent and 50 percent of variation
was explained in the price predicting and demand segments of the
model respectively.
The results of the statistical analysis indicated a positively
sloped demand curve. This rendered any application of the concept of
price elasticity of demand as a means of assessing how effective the
tax was being used meaningless.
In view of this, no recommendations have been made, but the
need for further research as more data become available has been
pointed out. / Graduation date: 1971
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Roles of yeast and lactic acid bacteria in malolactic fermentation of wines : a chemical and sensory studyAvedovech, Richard M. 08 November 1988 (has links)
The purposeful induction of malolactic fermentation (MLF) in wines such as Pinot Noir
and Chardonnay is an established commercial wine making practice in Oregon. This induction
is not always successful, especially with white wines, such as Chardonnay. A study was
initiated to examine the compatibility of yeasts commonly used in Oregon winemaking with
various strains of malolactic bacteria.
In preliminary and pilot plant scale experiments, the yeast strain found to be most
conducive to malolactic fermentation by lactic acid bacteria was Montrachet (Red Star). The
malolactic bacterial strains that were best able to complete malolactic fermentation in various
wines, fermented by different yeast strains, were the two Oregon commercial strains, ER1A
and Ey2d, and the Pinot Noir juice isolate, DAPN85A.
Sensory analysis of aroma by difference from control test was done on Chardonnay
wine fermented by 4 different yeast strains and 3 different malolactic bacterial strains. In all
cases, there was an overall significant difference in malolactic fermented wine aroma when
compared to control wines.
Organic acid analyses by high pressure liquid chromatography (HPLC) and analyses of
volatile compounds by gas chromatography (GC) and gas chromatography-mass spectrometry
(GC-MS) were done on selected Chardonnay wines. Propionic acid was found to diminish in
malolactic fermented wines while acetic acid content increased. Isobutanol and isobutyraldehyde increased significantly in MLF wines, compared to the controls. Chemical
analyses of MLF and control wines suggested two possible chemical reactions resulting from
the MLF. The first was the reduction of isobutyraldehyde to isobutanol, and the second was
the hydrolysis of isobutyl acetate to isobutyraldehyde and acetate. On all GC chromatograms of
wines, where MLF had occurred, there was an unidentified peak close to the retention time of
isoamyl acetate. This peak was not evident in wines where MLF had not occurred.
Eight compounds were tentatively identified by GC-MS in malolactic fermented wines
which were not found in the control wines. These were 4-methyl-3-pentanoic acid, methyl
acetate, ethyl hexanoate, hexyl acetate, 1,12-tridecadiene, hexadecanoic acid, and a
compound which was tentatively identified as farnesol, or 1,2-benzenedicarboxylic acid. The
latter four compounds had identity fits of less than 900 from the mass spectral analysis.
Whether any of these eight compounds match the unknown "ML peak" found in the GC
chromatograms is unknown. / Graduation date: 1989
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A maturity trial study of Pinot noir wines : aroma profile by sniffing gas chromatographic effluentMiranda-Lopez, Rita 07 December 1990 (has links)
The quality of wine is highly influenced by the weather.
Temperature, solar radiation and humidity influence the
formation and concentration of aroma-active compounds and
aroma-active precursors in the grapes. Pinot noir grapes require
a slow ripening, under cool temperatures, in order to achieve
their fullest flavor. The main objective of this study was to
provide an overall aroma picture that could help, along with the
chemical indices, to decide the optimum harvesting time to
obtain certain distinctive aroma attributes in the wine.
This particular work represents the first stage in a broad
plan aimed to understand the dependence of the wine flavor
chemistry on the ripening of the grapes. This maturity trial
was planned to last several years; it was expected that the
outcome and techniques developed in the present study would be
essential in delineating the steps to follow. The results of the
aroma analyses for the 1987 and 1988 vintages are reported
here. In each vintage, Pinot noir grapes were harvested at three
different times, covering a range from early to late maturity.
A sniffing technique based on gas chromatographic aroma
detection by a trained panel was implemented. This technique
has proved to be a useful tool to measure qualities and
intensities of aromas. The method was effective in detecting
many of the aroma-active compounds and in identifying aroma
differences between the wines studied.
The aroma profiles for the wines were found to be very
different from each other within and across vintages. There
were only 10 aroma peaks common to all three 1987 wines, 16
aroma peaks common to the 1988 wines, and 4 aroma peaks
common to both vintages. Late maturity wines had more aroma-active
peaks than the other 2 wines for both vintages. The 1988
wines had a higher number of aroma-active peaks than the 1987
wines. The percentages of aroma-active peaks not detected by
the Flame lonization Detector (FID) were 45% in the 1987
wines, and 66% in the 1988 wines. The overall climatic
conditions in those years were very different. The 1987 season
was characterized as hot and dry, producing an early harvest.
The weather in 1988 was more of a typical season for Oregon,
producing a normal to late harvest. Further study is needed to
fully understand the flavor chemistry occurring during grape
ripening. / Graduation date: 1991
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Optimising the antioxidant content of red wineClare, Steven S., University of Western Sydney, College of Science, Technology and Environment, School of Science, Food and Horticulture January 2004 (has links)
The aim of the study presented in this thesis was to assess the impact of manipulations to red winemaking unit operations on the concentration of cis- and trans-resveratrol and resveratrol glucoside isomers in the resultant wines. An existing sensitive reverse-phase high performance liquid chromatography 'RP-HPLC' method was optimised to detect these compounds in wine, which permitted excellent peak resolution. The influence of four fermentative yeast strains belonging to the Saccharomyces cerevisiae species on the content of these compounds in Vitis Vinifera L. cv. Shiraz grape musts during alcoholic fermentation was assessed.The influence of malo-lactic fermentation 'MLF' in Shiraz wine was assessed using three different commercial strains. The kinetics of extraction during extended maceration was studied over a period of 21 days.The effect of various pomace contacting maceration methods on the level of cis- and trans-resveratrol and resveratrol glucoside isomers was investigated in Vitus Vinifera L. cv. Cabernet Sauvignon grape musts during alcoholic fermentation. The fate of resveratrol and piceid isomers in fortified red wine(port) was studied during the first six months of maturation in either glass or new oak vessels. The primary wine was derived from Shiraz concentrate. The various tests are discussed in detail and results given / Doctor of Philosophy (PhD)
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A study of Glycosides in grapes and wines of Vitis vinifera cv. ShirazIland, Patrick. January 2001 (has links) (PDF)
Includes a list of publications co-authored by the author during the preparation of this thesis. Bibliography: leaves 103-111. Studies the links between grape composition, wine composition and wine sensory properties. Developed a new method of measuring glycoside concentration in grapes (glycosyl-glucose assay) and a modified measurement of wine colour density in red wine. These were used to analyse samples of Shiraz grapes and wines from a comprehensive vineyard irrigation trial. Glycosyl-glucose concentrations shows promise for the prediction of wine composition and flavor intensity.
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Biosynthesis of flavonoids in grapevines (Vitis vinifera L.) / Mark Downey.Downey, Mark Oliver January 2004 (has links)
Bibliography: p. 227-253. / xvii, 254 p. : ill. (chiefly col.), photos (col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This project sought to examine the spatial and temporal distribution, as well as the composition, of the flavan-3-ols, proanthocyanidins and flavonols in winegrapes throughout berry development. In addition, the author sought to explore how modifying bunch exposure to light would impact upon flavonoid biosynthesis in the grape berry by comparing the flavonoid composition of shaded and exposed grapes. The expression of key genes in the flavonoid biosynthetic pathway was also investigated to understand how the pathway is regulated during berry development. / Thesis (Ph.D.)--University of Adelaide, School of Agriculture and Wine, Discipline of Wine and Horticulture, 2004
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A study of seed development and phenolic compounds in seeds, skins and wines of Vitis vinifera L. cv. Shiraz / Renata Ristic.Ristic, Renata January 2004 (has links)
Bibliography: leaves 195-209. / xxvi, 209 leaves : ill., ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This study investigated seed development, phenolic composition of seeds and skins, and phenolic composition and sensory properties of wines made from berries of Vitis Vinifera L. cv. Shiraz that were developed and ripened under different levels of sunlight intensity at the bunch zone. The study also examined the relationships between seed and berry development, and the links between berry composition, wine composition and wine sensory properties. / Thesis (Ph.D.)--University of Adelaide, School of Agriculture and Wine, Discipline of Wine and Horticulture, 2004
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