OPTI'ML Blanc™ & ML RED BOOST™
Malolactic fermentation nutrients recently formulated to address specific difficult MLF conditions in wines with peptide deficiencies or high polyphenol levels. OPTI’ML Blanc is recommended for Chardonnay and ML RED BOOST is suggested for Zinfandel, Syrah, Malbec and Merlot.
NO BRETT INSIDE™
A natural polysaccharide extracted from a fungal source of chitin (Aspergillus niger). NO BRETT INSIDE has been shown to reduce Brettanomyces populations from 3 x 105 cells/mL to zero after 10 days of treatment. NO BRETT INSIDE has been approved for continual use under 27 CFR 24.250. As a result of updated TTB regulations, customers who use it don’t have to file an application.
O-MEGA™: much more than a New Wine Bacteria, a strong ally for malolactic fermentation
The Institut Français de la Vigne et du Vin (IFV), in partnership with Lallemand Oenology, has selected, over a four-year period, a new wine bacteria – O-MEGA™ – that is both vigorous and versatile and brings fruity freshness to white, rosé and red wines.
The O-MEGA™ wine bacteria can be inoculated into wine without rehydration, and is very easily implanted no matter when it is added (in co-inoculation, early inoculation or sequential inoculation), to conduct malolactic fermentation (MLF) in a short time – even in difficult conditions. Inoculation with O-MEGA™ is very simple, as confirmed by numerous winery trials that show its remarkable resistance in a wide range of uses, with white, rosé and red wines:
– pH ≥3.1
– Degree of alcohol <16%/vol, even 17%/vol if the other factors are not limiting
– Total SO2 <60 mg/L, free SO2 10 mg/L
– Temperature >15°C
When O-MEGA™ was characterized in greater detail, it revealed properties that go well beyond deacidification:
– Good resistance to polyphenols, which lets O-MEGA™ be effective in varietals where MLF can be difficult, like Merlot and Tannat
– Weak degradation of acetaldehyde during and after MLF, which permits better colour stabilization in red and rosé wines
– An ability to degrade both high levels of malic acid (6 g/L) and lower levels (1 g/L)
– Does not metabolize the precursors to hydroxycinnamic acid in grapes, which are the precursors to Brettanomyces for producing the ethyl and vinyl phenols responsible, for undesirable tastes in the wines
– Low production of volatile acidity
– This new wine bacteria selection also offers major sensory advantages, such as very low diacetyl production (milky and buttery notes), and helps develop wines with freshness and aroma complexity, while reinforcing their fruity character
For further information, read the scientific article “Managing wine quality with a newly selected, robust and original wine bacteria“
is a privately held Canadian company, founded at the end of the 19th century, specializing in the development, production, and marketing of yeasts and bacteria.