Sacramento Home Winemaker Seminar. Sigrid Gertsen-Briand Lallemand/ Scott Labs July 21, 2010
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1 Sacramento Home Winemaker Seminar Sigrid Gertsen-Briand Lallemand/ Scott Labs July 21, 2010
2 Who is Lallemand? Privately owned Canadian company Established in Montréal in 1915 We are approx people Invest a great deal in research around the world «Selection, research, production and marketing of micro-organisms and their by-products.»
3 Oenology Product Range Active Dry Wine Yeast Strains ~150 Saccharomyces (>1000 in collection) Brands include Lalvin, Enoferm, Uvaferm, VI-A-DRY Encapsulted Wine Yeast 4 winemaking applications Malolactic Bacteria 10 Oenococcus Strains Brands include Lalvin, Enoferm Enzymes 10 different pectinases Lallzyme Brand Nutrients Yeast Servomyces, Fermaid, Go-Ferm Malolactic OptiMalo Plus, ActiML Specific Yeast Derivatives OptiRed, OptiWhite & BoosterRouge, Booster Blanc, Noblesse
4 Yeast derivatives production General steps Yeast culture Unique Oenological strain (ICV, etc.) Specific strain (high sterol, mineral) Enrichment procedures (glutathione, micronutrients ) Yeast biomass Inactivated yeast SIY33 Noblesse GoFerm OptiWhite, Booster Blanc Specific fractions Autolysate OptiRed Centrifugation NATSTEP BoosterRouge Fermaid O Yeast extract Yeast hulls FNI
5 Alcoholic fermentation Glucose Biomass ( 2% glucose) Glucose CO2 Ethanol 92-93% Glycerol Organic Acids Higher Alcohol Esters 1 alcohol 16,8 g/l of glucose
6 Seven key points 1 Choice of yeast 2 Nutrition 3 Rehydration 4 Inoculation rate 5 Temperature 6 Oxygen 7 Micronutrient
7 YEAST STRAIN CHOICE In function of: potential alcohol and technical aspects (like microbial contamination, nutrition, T control ) Style & quality objectives
8 SECURE FERMENTS sugars regular fermentation = easy finish absence of metabolic off-flavors in some cases fast fermentation Good fermentation: slow or fast, but good finish Acceptable fermentation: slow but right to the end Worst case: fast at the beginning and sluggish / stuck at the end Key parameter: slope at the end time
9 Defining Good Fermentation Practices Good Fermentation Practices are considered options that will optimize: A complete and regular fermentation Achieving analytical and sensorial goals To have the most efficient results using the least input, added at the right moment.
10 Normal Fermentation Curve > million CFU/mL Population Higher yeast inoculation rate lowers dilution of the initial yeast cells survival factors 4-8 million CFU/mL million CFU/mL Time Brix Survival factors are important to ensuring the proper working of the cellular membrane: poly-unsaturated fatty acids and sterols
11 Yeast PROTECTION is essential & Yeast NUTRITION is vital.
12 0,9 Effect on Fermentation Kinetics of GO-FERM Micronutrient Addition During Yeast Rehydration A. Julien, J. Sablayrolles - INRA Montpellier 2001 dco2/dt (g/l.h) 0,8 0,7 0,6 0,5 0,4 0,3 0,2 0,1 0 30g/hl GO-FERM added at rehydration Uvaferm CEG inoculated at 25g/hl into MS 70 medium CO 2 evolution at 24 o C Greater degree of slope indicates Stronger fermentation finish 43 slope Control sluggish fermentation 19 slope Time (h)
13 ADDITIONS IN REHYDRATATION UNSATURATED FATTY ACIDS & STEROLS MICRONUTRIENTS (vitamins and minerals) PROTECTION INACTIVE YEASTS AS SOURCE
14 Benefit of using Rehydration nutrients No competition from other organisms (bacteria or other wild yeast) Biologically available Either used initially Stored in the cell until required Higher cell viability, More secure fermentation Better acclimatized yeast
15 REHYDRATATION VERY IMPORTANT for YEAST LIFE Protect yeast against initial osmotic shock lower V.A. Build-up yeast cell wall content of yeast stress resistant factors protect against ethanol toxicity Adding minerals and Vitamins- bioavailable
16 Yeast Cell Yeast Cell Wall Cross section
17 FUNCTION- PLASMA MEMBRANE ATPase Sterols and fatty acids H+ H+ H+ ATP ADP Structural proteins H+ Transport protein ATP ADP Enzymatic proteins Alcoholic fermentation [H+] ph int. = 5-6 [H+] ph ext. = 3-4
18 Yeast cell wall composition: Plasma Membrane is ~5% lipids (sterols & unsaturated fatty acids)
19 After yeast inoculation and lag phase begins yeast exponential growth phase 2-4 million cfu/ml Inoculation rate 2 lbs. per 1000 gallons (25g/hL)
20 Yeast exponential growth phase million cfu/ml Plasma Membrane now is ~0.15% lipids (sterols & unsaturated fatty acids)
21 Yeast cell wall composition: Plasma Membrane is now <0.2% lipids (sterols & unsaturated fatty acids) A critically low level!
22 To help avoid lipid depletion, add them during yeast rehydration Rehydration Without Protection ADY membrane Rehydration with UFA & Sterol NATSTEP Protection
23 Yeast macronutrient needs (10-3 M) Nutrient Carbon Nitrogen Oxygen Hydrogen Phosphorus Potassium Magnesium Sulfur Function Structural element, energy source Proteins and enzymes Fatty acid and sterol production Transmembrane proton motive force Energy transduction, membrane structure and nucleic acids Ionic balance, enzyme activity Cell structure, enzyme activity Sulphydryl amino acids, vitamins
24 MICRONUTRIENTS: Minerals Magnesium better alcohol, temperature and osmotic resistance, ratio Ca:Mg < 1, Zinc cofactor of glycolysis enzymes, increase alcohol tolerance regulation of by-products (esters, alcohols, fatty acids), Manganese synergistic effect with Zn, shorter generation time Copper essential element, but toxic above 1-2 mg/l Potassium must be > 300 mg/l at low ph s
25 Why is Mg so Important? viabilité après 60 min stress (%) % viable cells after 60 minutes Yeast Alcohol Tolerance! 0% 5% 10% 15% 20% 2 mm Mg 50 mm Mg Viability of S. cerevisiae after 60 min of Ethanol level at different concentrations of Mg 2+ (Birch and Walker, 2000)
26 MICRONUTRIENTS: VITAMINS Pantothenate avoids H 2 S and VA formation, better kinetics, less acetaldehyde, strain sensitivity Biotin better kinetics, synergic effect with N, increases ester production, higher yeast viability at end AF Thiamine Inositol better cell growth, less acetaldehyde and VA essential for membrane phospholipid synthesis
27 Why is Pantothenic Acid Important? 6 60 mg/l YAN 250 mg/l YAN total H2S produced during fermentation (mg/l) Avoid H 2 S! Pantothenic acid (µ g/l) Production of hydrogen sulphide by S. cerevisiae in a synthetic juice at different concentrations of Yeast Assimilable Nitrogen and Panthotenate (WSU, C. Edwards 2001)
28 Nitrogen
29 YANC OR YAN Yeast Available Nitrogen Content sum of assimilable nitrogen from Free Ammonia Nitrogen (FAN) and alpha amino acids. low levels associated with production of undesirable sulfide compounds and stuck fermentations Recommended levels: 250 ppm-350 ppm or higher depending on the initial BRIX level.
30 Nitrogen determination Formol titration Simple titration Hazardous waste NH4 and FAN (including Proline) Good estimation NOPA Measures FAN (excluding proline) Measure Ammonia separately (ISE Probe) No waste Spectrometry
31 Factors influencing accumulation ph Ethanol toxicity Temperature Degree of aeration Plasma membrane composition Strain of yeast Native microflora
32 WHY NITROGEN IS ESSENTIAL? Protein synthesis/ Sugar Transport (Basturia and Lagunas,1986) Cell growth : maximum CO2 production rate correlated with assim. nitrogen content of the must (Bely et al., 1991) Azoto assimilabile (mg/l) Tasso di sintesi proteica Avanzamento delle reazioni Attività del trasporto di zucchero 3.0 Fermentation rate a minimum level of assimilable nitrogen is required : 150mg/l (Jiranek, 1993) dco2/dt (g/l.h) N ass. = 307 mg/l N ass. = 75 mg/l Time (h)
33 Why is a fast & immediate nitrogen assimilation problematic? /dt (g/l.h) SLOW fermentation: low nitrogen content NH 4+ ADDICION: outburst of the fermentation rate =heating biomass increase High cell mortality at the end of the fermentation dco J. M. Sablayrolles 2000 T (h)
34 Organic nitrogen vs. Inorganic nitrogen: Security at the end of the fermentation: BETTER RESULTS, EVEN WITH LOW ADDITION Fermentation speed (g/l.h) 1,4 1,2 1 0,8 0,6 0,4 0,2 0 Chardonnay 220 g/l sugar, de-aerated 20 mgn/l ammonium 5 mgn/l α-amino N EC 1118 (20g/hl) Time (h)
35 Organic vs. Inorganic Nitrogen The research to date impact of nitrogen source on the yeast esters production (several yeast strains tested) : L. Bisson, 2007, Hernadez-Orte, , V. Ferreira impact of nitrogen source on volatile thiols production : M. Ugliano AWRI, 2008
36 Optimising Chardonnay aroma and flavour with yeaststrain specific nutrient regimes Objectives o To improve understanding of the yeast-nutrients-flavour matrix o To quantify improvements in yeast performance in response to fermentation nutrients o To demonstrate sensorial differences in wines made using different yeasts with and without fermentation nutrients o To characterise the nature of chemical differences in wines exhibiting distinct sensory profiles
37 Experimental matrix on Chardonnay grapes from Yalumba (Beo:11.6, ph 3.34, TA 5.94, FSO2 14, TSO2 52,YAN 204). Control DAP (L) DAP (H) Fermaid O DAP/ Fermaid O GFP/ Fermaid O Inoculation 1/3 of AF Total YAN g/hl 12.5 g/hl 50 mg/l 25 g/hl 25 g/hl 100 mg/l 40 g/hl 20 g/hl 24 mg/l 15.2 g/hl 4.5g/hl 40g/hl 50 mg/l 300mg/l 20 g/hl 20 g/hl 24mg/l
38 % inorganic 100% inorganic 68% inorganic & 32% organic 100% organic 100% organic QA23 control QA23 DAP (L) QA23 DAP (H) QA23 Dap/Ferm O QA23 Ferm O QA23 Go - Ferm/Ferm O Baume) 4 TSS ( Fermentation time (days)
39 Impact on yeast fermentative activity Total YAN added (mg/l) Day s Control DAP (L) DAP (H) DAP / Ferm O Fermaid O Goferm/ Ferm O 24 mg/l of «100% organic YAN» is significantly more efficient than 50 mg/l of «100% inorganic YAN» Balanced nutrition better adapted to yeast nutrient requirements compared to 100% inorganic N2.
40 Impact of N2 source on aromas Pourcentage vs DAP (50mg/l YAN) 45,0 40,0 35,0 30,0 25,0 20,0 15,0 10,0 5,0 0,0 2-methylpropyl acetate ethyl butanoate 2-methylbutyl acetate 3-methylbutyl acetate ethyl octanoate hexyl acetate phenylethyl acetate DAP/Fermaid 50mg/l YAN Fermaid 24mg/l YAN
41 Best approach to Nutrient adds. Determine YANC Only supplement if necessary 2 stage approach Initial supplement with a complex nutrient Make up remainder of requirement with DAP
42 Nitrogen levels 3 levels Low <150ppm (deficient) Medium ( ppm) High (>250 ppm) Is there a relationship between low N and other essential nutrients?
43 Survey of available Nitrogen White Red Rose Botrytized No. of Samples Min. value Max. value Mean Std. Deviation Deficient (%) Riberereau-Gayon
44 INTEGRATED NUTRITIONAL STRATEGY FOR WINE YEAST JUICE YANC rehydration end of lag 1/3 AF HIGH N > 225 mgn/l Go-Ferm lb/kgal MEDIUM N > 125 mgn/l Go-Ferm FERMAID K < 225 mgn/l 2.5lb/kgal 2lb./kgal LOW N < 125 mgn/l Go-Ferm DAP FERMAID K 2.5lb/kgal 2.5lb/kgal 2lb/kgal or more
45 Go-Ferm & FERMAID FERMAID : IS IT USELESS NOW? In high sugar - nitrogen deficient musts a YAN addition (at 1/3 AF) is still needed Go-Ferm FERMAID DAP provides ab. 10 mgn/l at 30 g/hl (100% a-amino) provides ab. 30 mgn/l at 30 g/hl (mix of a-amino and ammonia) provides ab. 60 mgn/l at 30 g/hl (100% ammonia)
46 Sugar-Nitrogen Relationship Brix YAN (Butzke)
47 Supplementation decisions Always go for complex first More efficient Better aromatics Controlled growth Controlled fermentation Back up if needed with DAP
48 What to supplement and when- Beginning of Fermentation Macronutrients Micronutrients Oxygen Vitamins Mid- Fermentation Nitrogen Sterols Summary Late Fermentation (<10 Brix) Nothing, cells can not accumulate anything but sugar, due to the repressive effects of Ethanol
49 Temperature Control in Red Must Peak temperature under the cap maximums relative to the initial osmotic shock (in warm or hot climate regions) Cap Max. Temperature 20 Brix 95 F 21 Brix 90 F 22 Brix 85 F 23 Brix 80 F >24 Brix 76 F
50 And you thought I would forget?!!!!
51 Key Interrelationships of Factors TEMPERATURE CELL NUMBERS & HEALTH Affecting Fermentation SUGAR CONTENT MAXIMUM FERMENTATION MANAGEMENT STRAIN SELECTION NUTRIENTS and OXYGEN TOXIC FACTORS COMPETITIVE FACTORS
52 Management of MLF
53 MBR Culture Rehydration When rehydrating MBR cultures, respect the 15 minute time limit otherwise loss of viability (>1 log at 1 hour) The safest optimum temperature for rehydration is 20 o C
54 THE CHEMISTRY... HOOC. CH 2. CHOH. COOH CO 2 + CH 3. CHOH. COOH 134 malic acid 44 carbon dioxide 90 lactic acid
55 Metabolism in heterofermentative Lactic Acid Bacteria CITRATE ppm GLUCOSE FRUCTOSE ppm MALATE ppm ATP ATP L-LACTATE ppm Pyruvate D-LACTATE ppm acetyl-p ATP Acetaldehyde-TPP Acetyl-CoA ph, temp Fatty acids LIPIDS DIACETYL 2-8 ppm acetoin ACETATE ppm
56 The more you know the better!
57 WINE L-Malate L-lactate units increase in ph (palate) BACTERIA Mannoprotein More efficient malic acid degradation Phenols (gallic acid & anthocyananins) Growth & stimulation of MLF protease Ethyl lactate Protein Peptides Bitterness? flavour Ethanol Mousy compounds Off-flavour Acetate Glycoside (flavour) β-glucosidase Citrate Oxaloacetate Pyruvate Diacetyl Buttery, nutty aroma/flavour Polysaccharides β(1->3) glucanse Sugar + flavour-aglycon Increase in aroma Cell growth Citrulline, urea Ethyl carbamate carcinogen phosphoketoslase pathway (Heterofermentative) Aspartate Mouthfeel contribution Sucrose, trehalose phenolic glucosides SO 2 -acetaldehyde Acetate & ethanol & free SO 2 Fatty acids & Lipids Colour reduction Sugaranthocyanin glycosidase (anthocyanase) Sugar + anthocyanidin Adsorption by cells Cell growth Hexoses Glucose Fructose Bruised apple (green, vegetative) Pyruvate Monosaccharides D-lactate Embden-Meyerhof- Parnas pathway (Homofermentative) Trehalose disaccharide Esters synthesis & hydrolysis Ethylesters esterase ethyl lactate, ethyl acetate, ethyl hexanoate, ethyl octanate Fruity aroma Hydrolase? Phenolic acids p-coumaric acid 4-ethyl guaiacol 4-ethyl phenol Spicy, clove sweaty, bandaid Pentoses Lactate & acetate Glucose Glycerol & erythritol Polyols Oak products furfural pentose phosphate pathway Mouthfeel & body contribution Lipids lipase Fructose Mannitol Volatile fatty acids Biogenic amine production histamine & tyramine Copper ions Inhibitory to growth Eveline Bartowski, AWRI, 2004
58 BACTERIA EVOLUTION UNDER FAVOURABLE CONDITIONS 10 8 yeasts Oenococcus Lactobacillus Pediococcus Acetobacter Gluconobacter 10 Cells/ ml HARVEST DELIVERY ALCOHOLIC FERMENTATION MALOLACTIC FERMENTATION STORAGE
59 What are the risks of not inoculating? Depends on the ph High levels of biogenic amines High V.A. Undesirable aromas and flavors
60 BACTERIA EVOLUTION UNDER DIFFICULT CONDITIONS 10 8 yeasts Oenococcus Lactobacillus Pediococcus Gluconobacter Acetobacter 10 Cells/ ml HARVEST DELIVERY ALCOHOLIC FERMENTATION MALOLACTIC FERMENTATION STORAGE
61 INTERACTION OF PARAMETERS
62 Conditions for a MLF FAVOURABLE ph 3,3-3,5 SO 2 total < 30 mg/l SO 2 free < 5 mg/l Temperature > 18 C Alcohol < 12 % DIFFICULT ph < 3,2 SO 2 total > 50 mg/l SO 2 free > 10 mg/l Temperature < 15 C Alcohol > 13,5 %
63 Yeast nutrition impact on MLF 2006 Chardonnay (NY State) Yeast: ICV D254 + ML bacteria strain: ALPHA (Thomas Henick-Kling, Cornell University) GoFerm (0.3 g/l) Rep A GoFerm (0.3 g/l) Rep B Fermaid (0.3 g/l) Rep A Fermaid (0.3 g/l) Rep B DAP (1 g/l) & Fermaid (0.1 g/l) Rep A DAP (1 g/l) & Fermaid (0.1 g/l) Rep B
64 Growth of strain Oenococcus oeni VP41 in a synthetic minimal medium with a cocktail of amino acids added. (values are expressed in percent growth of the OD 600 nm in presence of 18AAs) 120 SOUCHE R1105 % delta DO tém aucun Ala Lys Pro Gly Cys Asp Thr Arg Leu His aa omis Glu Trp Ser Iso Met Phe Tyr Val
65 Growth of strain Oenococcus oeni L31 in a synthetic minimal medium with a cocktail of amino acids added. (values are expressed in percent growth of the OD 600 nm in presence of 18AAs) % delta DO té Lalvin31 SOUCHE R aucun Ala Pro Gly Lys Thr Ile His Trp Leu Asp Met PLEASE NOTICE aa omis Lalvin 31 VERY DEMANDING ADD ML NUTRIENTS!!! Arg Cys Val Tyr Glu Phe Ser
66 Cabernet Franc 2003 second inoculation (alcohol 14%vol, T-SO2 43 ppm, ph 3,58) Malic acid degradation in presence Malic acid (g/l) ALPHA control ALPHA Lalvin 41 control Lalvin Time (days)
67 Nutrient Need O. oeni strain Nitrogen need +/ VP41 ALPHA PN4 Elios 1 MT01 Lalvin31 Beta Will benefit. Especially in difficult conditions, high alcohol, low ph or high SO 2 Will benefit. Especially in difficult conditions, high alcohol, low ph Will benefit. Especially in difficult conditions, high alcohol, low ph Will benefit. Especially in difficult conditions Obligatory in the piedde-cuve step, but also benefitial in the base wine ALWAYS Especially in low ph conditions ALWAYS Especially in sequential inoculation
68 Table of compatibility with MLF Level of compatibility Yeast strains No information QA EC1118 CEG M1 C1108 ICV D254 DV10 PM SIMI White K1 C or R7 71B R2 ICV D WAM FC9 AMH M2 BDX 2226 Opale QD145 W15 W BRL97 RHST T73 W27 SLO T306 ALB 6U Cross evolution 2056 Syrah CY3079 BGY RA17 M69 W46 CSM BM45 CGC62 RC212 VQ15 BM4x4 CK ICV D BA11 GHM VN ICVD47 MCS VRB SVG ICV GRE RHST Rhone 4600 CM CS2 299 NEM PMA BC CEG 43
69 glucose citrate lyase citric acid oxaloacetic acid acetic acid aspartate aminotransferase aspartic acid lactic acid NAD NADH lactate dehydrogenase oxaloacetate decarboxylase CO 2 pyruvate dehydrogenase complex pyruvic acid acetylphosphate acetic acid α-acetolactic acid α-acetolactate decarboxylase CO 2 TTP pyruvate decarboxylase CO 2 acetaldehyde-ttp α-acetolactate synthase non-enzymatic decarboxylation diacetyl reductase CO 2 acetate kinase DIACETYL ATP NAD(P)H NAD(P) acetoin acetoin reductase NAD(P) NAD(P)H 2,3-butanediol Eveline Bartowski, AWRI, 2004
70 Diacetyl - management during winemaking Diacetyl conc n Diacetyl conc n O. oeni strain variable temperature 18 C - higher 25 C - lower wine type white - lower red - higher SO 2 binds to diacetyl - sensorially inactive inoculation rate higher lower aeration air - higher anaerobic - lower fermentation time longer MLF - higher From: Dr. Eveline Bartowski (AWRI) Trier (D) April 2008 contact with yeast lees ph long contact- lower lower ph may favour
71 Seven key points 1 Choice of bacteria 2 Nutrition 3 Rehydration 4 Inoculation rate 5 Temperature 6 Oxygen 7 Micronutrient
72 THANK YOU! For more information
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