Enology Notes Index K-O
The Index is broken down into alphabetical sections. Please choose the section for the subject you are interested in.
| Subject | Issue |
| KHT | 37, 38 |
| killer toxins | 56, 159 |
| Kloeckera | 105, 159 |
| Kloeckera apiculata | 54 |
| Kloeckera spp. | 56, 83 |
| knowledge - or epistemology | 153, 155 |
| laboratory trials | 45 |
| laccase | 24, 103 |
| lactic acid bacteria (LAB) | 65, 91, 158 |
| lactic acid bacteria (LAB) strains | 71 |
| lactic acid bacteria (LAB) management | 71 |
| lactic acid bacterial growth | 72 |
| Lactobacillus | 71, 73, 91, 105, 159 |
| large polymeric pigments (LPP) | 33, 62, 65, 76, 82, 116 |
| last month of maturity | 32 |
| late harvest wine production | 32 |
| late inoculation | 105 |
| late inoculum | 56 |
| leaf area | 30, 112 |
| leaf fall | 30 |
| leaf senescence | 114 |
| leaf shading | 80 |
| lees | 90, 101, 103, 151 |
| lees and color | 41 |
| lees and oak bouquet | 41 |
| lees contact | 22, 93, 106 |
| lees management | 71, 106, 113, 146 |
| lees stirring | 106, 146 |
| lees storage | 112, 146 |
| length of maceration | 107 |
| Leuconstoc | 105, 159 |
| light | 27, 53 |
| light, clean lees | 76 |
| light (low boiling point) sulfur compounds | 113 |
| light crop | 57 |
| light exposure | 114 |
| light lees | 57, 71, 78, 106, 113 |
| liminescence | 152 |
| Loire River Valley | 75 |
| long settling | 56, 105 |
| longer maceration | 72 |
| longevity, wine | 109, 144, 160 |
| low phenol varieties | 33 |
| lysozyme | 73, 91, 159 |
| maceration | 117, 142, 155 |
| maceration enzymes | 29, 90, 103 |
| maceration period | 71 |
| macro-, meso-, and micro-climate | 63, 64, 65, 87 |
| macromolecules | 6, 41, 57, 106, 146, 151 |
| Madiran | 42 |
| Maipe | 83 |
| malate | 103 |
| malic acid | 30, 63, 84, 111 |
| malic acid respiration | 6 |
| malic enzyme (ME) | 30 |
| management of lactic acid bacteria | 73 |
| management of phenols | 33 |
| manno-protein polysaccharides | 103 |
| mannoproteins | 6, 25, 41, 69, 71, 106, 146, 151, 154, 159 |
| Manseng | 101 |
| Marsanne | 70 |
| maturation dynamics | 53 |
| mature tannins | 27 |
| maturity | 87, 150 |
| maturity evaluation | 27, 50, 101, 115, 147 |
| maturity evaluation gauge | 57 |
| maturity gauges | 83 |
| maturity gauges | 109 |
| maturity of skin and seed tannins | 76 |
| Maule | 83 |
| maximizing aroma/flavor and structure | 81 |
| maximum aroma/flavor | 30, 107 |
| maximum berry weight | 30 |
| maximum sample area | 53 |
| maximum weight | 107 |
| media migration | 65 |
| membrane efficiency | 65 |
| membrane filters | 67 |
| membrane-type filters | 65 |
| mercaptans | 70, 71, 96, 113 |
| Merlot | 62 |
| metal analysis | 148 |
| metal-containing fungicides | 70 |
| metal oxide sensors (MOS) | 147 |
| metallic | 151 |
| metallic bitterness | 77 |
| metals | 96, 144 |
| methionine | 79, 113 |
| methode champenoise | 43 |
| methoxypyrazine(s) | 94, 112, 113, 114, 115, 132, 143, 153 |
| methyl indole | 14, 77 |
| 2-methylisoborneol | 35, 36 |
| methyl mercaptan (MeSH) | 70, 79 |
| Metschenickowia pulcherrima | 54 |
| 3-MH | 101, 112 |
| 3-MHA (3-mercaptohexyl acetate) | 102 |
| Mg++ nutrition/deficiency | 90, 103 |
| microbiological | 111 |
| microbiological antagonism | 105 |
| microbiological degradation | 60 |
| micronutrient deficiency | 105 |
| micronutrients | 113 |
| microoxidation | 103 |
| micro-oxidation | 33 |
| microoxygenation | 42, 69, 75, 76, 78, 84, 92, 94, 95, 108, 114, 120, 134 |
| microoxygenation research | 35, 36 |
| microoxygenation research review | 23 |
| mid-palate body | 62 |
| MLF (malolactic fermentation) | 22, 72, 82, 91, 104, 106, 137 |
| MLF completion | 71 |
| MLF inhibition | 159 |
| MLF supplement | 104 |
| MLF timing | 73, 144 |
| 4-MMP | 101, 112 |
| 4-MMPOH | 101 |
| MOG removal | 114 |
| moisture stress | 57, 107, 110, 111, 113 |
| moldy grapes | 47 |
| molecular form | 96 |
| molecular oxygen | 26, 122 |
| monitoring | 115 |
| monitoring, quality | 147 |
| monitoring sustainability | 152 |
| monitoring, vineyard/winery | 147 |
| monomeric anthocyanins | 62 |
| monomeric phenols | 33 |
| monomers | 65, 76 |
| Mourvedre | 70 |
| mousseux | 91 |
| mouthfeel | 62, 84, 113, 146, 158 |
| mouthfeel balance | 76 |
| mouthfeel management | 76 |
| mouthfeel modification | 103 |
| mouthfeel softening | 78 |
| mouthfeel wheel | 27, 33 |
| mucic acid | 2 |
| mulberry wine | 125 |
| multiple harvest dates | 53 |
| Muscats | 151 |
| must nitrogen | 158, 159 |
| must turbidity | 79, 151 |
| musty odor | 35, 36 |
| NaOH standardization | 31 |
| native yeasts/bacteria | 105 |
| natural cork | 77, 99, 100 |
| nephelometer | 28 |
| new oak | 84 |
| New Zealand | 112 |
| New Zealand Screwcap Initiative | 96 |
| nighttime temperatures | 101 |
| nitrogen (N) | 14, 111, 143 |
| nitrogen additions | 79, 159 |
| nitrogen (N) adjustments | 28 |
| nitogen (N) application | 110 |
| nitrogen deficiency | 56, 77, 110, 113, 133, 159 |
| nitrogen gas | 113 |
| nitrogen metabolism | 110, 113 |
| nitrogen status | 26, 81, 92, 107 |
| nitrogen (N) supplementation | 102 |
| nitrogen supplements | 92, 113, 133 |
| nitrogen uptake | 110 |
| Noble rot | 24 |
| non-invasive analysis of fruit | 51 |
| nonsoluble solids | 6, 28, 56, 71, 80, 105, 106, 139 |
| non-volatile precusors | 113 |
| normal rating | 65 |
| Norton grape | 90, 103 |
| Norton HACCP-like plan | 90 |
| Norton production challenges | 103 |
| Norton structural/textural quality | 103 |
| Norton varietal aroma | 103 |
| Norton varietal descriptors | 90 |
| NTU/turbidity level | 93 |
| number of clusters per shoot | 63 |
| nutrient addition | 56, 105, 159 |
| nutrient cocktails | 105 |
| nutrient supplementation | 32 |
| objectives for US industry | 89 |
| 1-octen-3-ol | 35, 36 |
| 1-octen-3-one | 35, 36 |
| Oenococcus | 73, 91, 159 |
| off-odors | 93 |
| OIV | 91 |
| Okanagan Valley | 40 |
| optical density (OD) at 420 nm | 98 |
| optimum maturity | 50 |
| optimum mean ripening temperature | 87 |
| optimum mean temperature | 59 |
| Oregon wine industry | 139 |
| organic farming | 75, 83, 109 |
| organic grape growing | 63 |
| osmotic distillation (OD) | 69 |
| osmotic pressure | 32, 56, 105 |
| overall ripeness | 50 |
| overcropping | 57 |
| over-extraction | 76 |
| overfining | 45 |
| oxidation | 35, 36, 100, 106, 111, 112, 113, 129, 133, 144, 160 |
| oxidation of phenols | 26 |
| oxidation potential | 111 |
| oxidation-reduction (redox) | 96, 134 |
| oxidation-reduction (redox) potential | 79, 95, 96, 102, 113 |
| oxidation-reduction (redox) state | 70 |
| oxidation-reduction potential | 41 |
| oxidative buffering capacity | 41, 80 |
| oxidative changes | 99 |
| oxidative degradation | 71, 77, 101, 102, 113, 129 |
| oxidative dimers | 160 |
| oxidative products | 151 |
| oxidative polymerization | 94 |
| oxidized | 96 |
| oxidized (brown) color and character | 46 |
| oxidized character | 98 |
| oxidized sulfides | 79 |
| oxidized volatile sulfur compounds | 113 |
| oxidizing agents | 95 |
| oxygen | 26, 56, 95, 105, 111, 113, 120, 122, 160 |
| oxygen analyzer | 152 |
| oxygen at bottling | 152 |
| oxygen balance at bottling | 97 |
| oxygen buffering | 57, 106 |
| oxygen depletion | 26 |
| oxygen exposure | 98 |
| oxygen ingress | 97, 152 |
| oxygen management | 8, 133, 139 |
| oxygen permeability | 98, 100 |
| oxygen pick-up | 111 |
| oxygenation | 92, 106, 107 |
| oxygenation (wine aeration) | 134, 159 |