Fascinating World of Fermented Foods and Microorganisms
Microbiology of Fermented Foods
Principles
Microorganisms
Starter Cultures
Fermented Foods
Fermentation Principles
Spoilage versus Fermentation: a matter of
control
Left to their own fate, perishable foods (meat, milk,
fruits and vegetables) perish because growth of
micro-organisms is not controlled
In fermentation, conditions are controlled so that
only certain microorganisms can grow (only those
that bring about positive changes).
Spoilage versus Fermentation:
a matter of control
Acidity and pH
Temperature
Moisture
Salt
Exert control by:
Substrate availability
General properties of fermented foods
Enhanced nutritional value
Enhanced functionality
Enhanced organoleptic properties
Enhanced preservation
Unique
Increased economic value
Exposed and open
Exposure to contaminants
Varying quality
Safety a minor concern
Manual
Insensitive to time
Closed and contained
Contaminants excluded
Consistent quality
Safety a major concern
Automated
Time-sensitive
Non-sterile medium
Small scale (craft industry)
Traditional
Modern
Heat-treated medium
Large scale (in factories)
Fermented foods industry: past and present
Microorganisms involved in fermented foods
Lactic acid bacteria
(
Lactobacillus, Streptococcus
)
Other bacteria
(
Propionibacterium
,
Brevibacterium
)
Fungi
(
Aspergillus, Penicillium
)
Yeast
(
Saccharomyces
)
Initiating food fermentations
natural fermentation
starter cultures
backslopping
wine, sauerkraut, soy sauce
relies on use of a previous batch
defined strains in concentrated form
requires selection
sausage, sour dough bread, beer, kefir
cheese, yogurt, sausage, wine, beer, bread
Lactic acid bacteria
A,
Lactobacillus delbrueckkii
subsp.
bulgaricus
; B.
Lactobacillus brevis
; C,
Pediococcus pentosaceus
; D,
Lactococcus lactis
; E,
Lactobacillus helveticus
; F,
Streptococcus thermophilus
Common characteristics of lactic acid bacteria
Gram positive rods and cocci
Acid-tolerant
Fermentative
Non-sporeforming
Catalase negative
Low mol% G + C
Non-motile
Facultative anaerobes
Nutritional requirements of lactic acid bacteria
Some strains require anaerobiois
Require sugars for energy
Some strains require complex nutrients
Require pre-formed amino acids
lactate
acetate
CO
2
lactate
(
L
or
D
)
ethanol
Homofermentative
Heterofermentative
Fermentative pathways in lactic acid bacteria
Lactobacillus
Tetragenococcus
Pediococcus
Enterococcus
Vagococcus
Carnobacterium
Oenococcus
Leuconostoc
Lactococcus
Weissella
Streptococcus
Aerococcus
Genera of lactic acid bacteria
Lactobacillus
Tetragenococcus
Pediococcus
Oenococcus
Leuconostoc
Lactococcus
Streptococcus
Lactic acid bacteria important in fermented foods
Lactobacillus delbrueckii
Staphylococcus aureus
Bacillus subtilis
Listeria monocytogenes
Tetragenococcus halophilus
Lactobacillus casei
Lactobacillus brevis
Pediococcus pentosaceus
Lactobacillus plantarum
Lactobacillus gasseri
Lactobacillus johnsonii
Enterococcus faecalis
Vagococcus salmoninarum
Carnobacterium funditum
Aerococcus viridans
Oenococcus oeni
Leuconostoc mesenteroides
Weissella cibaria
Clostridium botulinum
Phylogeny of lactic acid and other Gram positive bacteria
Lactococcus lactis
Lactococcus cremoris
Streptococcus pneumoniae
Streptococcus thermophilus
Habitats of lactic acid bacteria
General functions of LAB in fermented foods
Unveil the intricate world of fermented foods, delving into the principles, microorganisms, and starter cultures involved. Discover the fine balance between spoilage and fermentation, the general properties and benefits of fermented foods, and the evolution of the fermented foods industry across time. Learn about the key microorganisms essential in fermentation processes and the various methods of initiating food fermentations. Embark on a journey through the past and present of the fermented foods industry, from traditional to modern practices.
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Presentation Transcript
Microbiology of Fermented Foods Principles Microorganisms Starter Cultures Fermented Foods
Fermentation Principles Spoilage versus Fermentation: a matter of control Left to their own fate, perishable foods (meat, milk, fruits and vegetables) perish because growth of micro-organisms is not controlled In fermentation, conditions are controlled so that only certain microorganisms can grow (only those that bring about positive changes).
Spoilage versus Fermentation: a matter of control P-23-712 Exert control by: Acidity and pH Temperature Moisture Salt Substrate availability
General properties of fermented foods Enhanced preservation Enhanced nutritional value Enhanced functionality Enhanced organoleptic properties Unique Increased economic value
Fermented foods industry: past and present Traditional Modern Small scale (craft industry) Large scale (in factories) Non-sterile medium Heat-treated medium Exposed and open Closed and contained Manual Automated Insensitive to time Time-sensitive Exposure to contaminants Contaminants excluded Varying quality Consistent quality Safety a minor concern Safety a major concern
Microorganisms involved in fermented foods Lactic acid bacteria (Lactobacillus, Streptococcus) Other bacteria (Propionibacterium, Brevibacterium) Fungi Yeast (Aspergillus, Penicillium) (Saccharomyces) aspergillus 108-1272 pombe
Initiating food fermentations natural fermentation requires selection wine, sauerkraut, soy sauce backslopping relies on use of a previous batch sausage, sour dough bread, beer, kefir starter cultures defined strains in concentrated form cheese, yogurt, sausage, wine, beer, bread
Lactic acid bacteria A C B 5.0 m E F D 1.0 m A, Lactobacillus delbrueckkii subsp. bulgaricus; B. Lactobacillus brevis; C, Pediococcus pentosaceus; D, Lactococcus lactis; E, Lactobacillus helveticus; F, Streptococcus thermophilus
Common characteristics of lactic acid bacteria Fermentative Low mol% G + C Non-sporeforming Gram positive rods and cocci Facultative anaerobes Catalase negative Non-motile Acid-tolerant
Nutritional requirements of lactic acid bacteria Require sugars for energy Require pre-formed amino acids Some strains require complex nutrients Some strains require anaerobiois
Fermentative pathways in lactic acid bacteria Glucose Homofermentative Heterofermentative lactate (L or D) lactate acetate CO2 ethanol
Genera of lactic acid bacteria Aerococcus Carnobacterium Enterococcus Lactobacillus Lactococcus Leuconostoc Oenococcus Pediococcus Streptococcus Tetragenococcus Vagococcus Weissella
Lactic acid bacteria important in fermented foods Lactobacillus Lactococcus Leuconostoc Oenococcus Pediococcus Streptococcus Tetragenococcus
Phylogeny of lactic acid and other Gram positive bacteria Lactobacillus delbrueckii Lactobacillus johnsonii Staphylococcus aureus Lactobacillus gasseri Bacillus subtilis Lactobacillus plantarum Tetragenococcus halophilus Pediococcus pentosaceus Listeria monocytogenes Lactobacillus brevis Lactobacillus casei Clostridium botulinum Enterococcus faecalis Vagococcus salmoninarum Carnobacterium funditum Streptococcus thermophilus Aerococcus viridans Streptococcus pneumoniae Lactococcus lactis Lactococcus cremoris Weissella cibaria Oenococcus oeni Leuconostoc mesenteroides
Habitats of lactic acid bacteria Genus Dairy Meat Vegetable Fruit + - - - Lactococcus + - - - Streptococcus + - + + Leuconostoc - - - + Oenococcus + + + + Lactobacillus - + + - Pediococcus - - + - Tetragenococcus
General functions of LAB in fermented foods Ferment sugars, reduce pH Synthesis of flavor compounds Texture changes Production of antimicrobial substances
