|
IMPORTANCE OF MUSHROOMS, PEST AND DISEASES IN MUSHROOM
CULTIVATION AND THEIR MANAGEMENT
|
Mushroom
is a form of plant life knows as fungus. Mushroom can be defined as a
saprophytic macro fungus with a distinctive fruiting body. They grow wild in
almost all type of soils, on decaying matter and wooden stumps etc.
It has been estimated that out of
10000 species of flashy fungi about half of them are edible and as many as 100
species are poisonous. About 2000 species from more than 30 genera recorded as
prime edible mushroom but only about 50 of them are grown experimentally, 40
cultivated economically, 20 cultivated experimentally, about 4-5 are industrial
scale.
Types of mushrooms
|
S.No
|
Name of the mushroom
|
Scientific name
|
Temperature
|
Relative humidity
|
|
|
1
|
Paddy straw mushroom
|
Volvariealla volvaceae
|
28-35ºC
|
80-95%
|
April-sept.
|
|
2
|
White button mushroom
|
Agaricus bisporus
|
14-16 ºC
|
90-95%
|
Sept-jan.
|
|
3
|
Oyster mushroom
|
Pleurotus florida
|
24-28 ºC
|
80-85%
|
Oct-feb.
|
|
4
|
Elm oyster mushroom
|
Hipsizygne almarius
|
25-28 ºC
|
75-85%
|
July-Feb.
|
|
5
|
Milky mushroom
|
Calocybe indica
|
30-35 ºC
|
80-95%
|
March-oct.
|
IMPORTANCE OF MUSHROOM CULTIVATION
1.
Mushrooms are
known as vegetable meat and form a good supplement for protein diet.
2.
Analysis of some
common edible mushroom showed that they contains 89-91% water, 0.97-1.26% ash,
2.78-3.94% protein, 0.25-0.65% fat, 0.09-1.67% crude fibre, 5.3-6.28%
carbohydrates and energy value of 24.4-34.4 Kcal. Being free from fat and starch
they serve as good diet for diabetics and obesity persons.
3.
They have high
percentage of all nine essential amino acids and very high in lysine and
tryptophan, the two amino acids deficits in cereals.
4.
Mushrooms are
almost free from fat except for linoleic acid and are richer than most
vegetables in water soluble vitamins (B1, B2, Niacin, B12, and Pantothenic
acid)
5.
They are good
source of minerals i.e. P K Ca Cu and Na. They are low in calories (less than
30g/100g) with very less traces of sugar and no cholesterol.
PESTS AND DISEASES OF MUSHROOM AND THEIR MANAGEMENT
Bacteria,
fungi, nematodes, mites and insects are most commonly encountered biotic causes
of disorders. The involved organisms/cause should be correctly identified
before attempting to control the problem. It’s essential to understand the
biology of the organism, wherever involved (how it gained entry, how its
spread, how it can control) and after this, a suitable method of controlling
the pest or pathogen should be devised. Basically farm hygiene is the best
approach to the control of mushroom disorders.
The incidence and severity of the
pest problem are directly related to the degree of control of the growing
environment. The available technology of air conditioning, air movement,
humidification, air filtration, insulation and post-harvest storage have mad
pest management much easier. The availability to preciously control the
production environment can lead to the production of pest-free pesticide-free
and high quality mushroom at reasonable cost.
FUNGAL DISEASES
(A)
DRY BUBBLE
Causal organism- Verticillium fungicola
|
Dry
bubble disease of mushroom
|
SYMPTOMS
·
Whitish mycelial growth appear on the cashing soil
which turn greyish yellow. If infection take place in an early (pin head stage),
the typical onion shaped mushroom are produced.
·
The stem is thicker than the cap, which is often
not distinguishable from the stem.
·
At the later stages of infection crooked and
deformed mushroom can be seen.
·
When a part of the cap is affected hare-lip
symptoms is noticed. The affected mushroom turn greyish.
CONTROL
·
Use of sterilized casing soil, proper dispose of
spent compost, control of insects/nematodes/mites and better hygiene are
essential to avoid primary infection.
·
Spraying with Dithane Z-78, Sporgon at 1.5g/m2
nine days after casing, Topsin M, Chlorothalonil, Prochloraz and Daconil are
effective in checking dry bubble.
·
Control local infection by spraying the affected
patch with 2% commercial formalin.
·
Dry bubble can be managed effectively by adopting
strict hygienic measures, using properly pasteurized compost and sterilized
casing mixtures and maintaining ideal environmental condition.
(B)
COBWEB DISEASE
|
Cobweb
disease of mushroom
|
SYMPTOMS
·
Small circular, white patches of the mycelium are
first seen on the surface of the casing.
·
As the disease progresses, a fluffy white mould
grows over the mushroom. Eventually mushroom effected by cobweb disease turn
brown, being to rot and die off.
·
In severe attacks a dense white mould develops
over casing and mushroom change from a fluffy cobweb to dense mat of mycelium.
The white colour can turn pink or red with age.
CONTROL
·
Thoroughly disinfect the casing soil with live
steam or formaldehyde and/or treat with 150g Benomyl per 100m2 upon
casing.
·
Sterilizing the casing mixture even at 50ºC for 4 hours can kill the pathogen.
·
Clean the beds on
schedule, remove the stem of cut mushrooms and young half dead mushroom.
·
Temperature and
humidity during picking should not go beyond 60ºF and 90% respectively.
·
Fungicides can be
applied to the surface of casing, Benzimidazole and prochloraz manganese and
chlorothalonil can be applied in the initial casing mixture or spread on
between flushes.
·
Use of Bavistin+TMTD at g/m2 is better. Dust between
flushes with zineb or mancozeb, 100 g/m2 once in
a week or spray the beds with a weak solution of formalin (0.2%-0.3%).
·
Treat the small
spots of cobweb mould immediately with salt or formaldehyde.
·
When the room has
not been cooked out, water the beds immediately upon emptying to prevent
spreading of spores.
(C)
WET BUBBLE DISEASE
|
WET
BUBBLE DISEASE
|
SYMPTOMS
Young pinheads develops monstrous shaped which often
don’t even resembles mushroom. The short, curly, pure white fluffy mould of
mycogene can easily be observed on and around the infected mushroom. The colour
of infected area becomes greenish brown due to the formation of dark colour
chlamydospores. Clear, brown coloured drops caused by putrefying bacteria exude
from the bubble. At this stage, bubble is weak or completely rotten and emits
unpleasant odour.
CONTROL
·
Good hygiene, use of properly sterilized casing
soil and spraying with Diathane Z-78 (0.3%) at weekly interval provide good
control.
|
Typical
Onion Shaped Mushroom Symptoms of Dry Bubble
|
|
Thickened
Stipe: Wet Bubble Infection
|
(D)
GREEN MOULD
Causal organism- Trichoderma
sp.
SYMPTOMS
|
Green
mould disease
|
Different species of Trichoderma occurring in compost, on casing soil in the span
bottles and on grains after spawning. Fruiting bodies produce dark brown on
greenish lesions/spots discolouration on the pileus as well as the stipe. Trichoderma viridae produce reddish
brown discolouration along the stipe by killing the tissue. Sunken, non-coalescing
lesions are also produce on the pileus. Trichoderma
koningii grow as cottony web causing wet rot. It also produces superficial
purple brown spot with a dry cracked surface. The wefts remains grayish for a
long time and sporulation is slower. The lose sage green clusters of spore heads
develop on affected tissue of mushroom. The infection also start on dead tissue
of mushroom that remains on the compost after harvesting. The effected caps
turn brown on one side and discoloured areas are not depressed or sunken. Trichoderma hamatum is frequently seen
growing during spawn run but it also causes brownish spots on mushroom caps
under high humidity. On young pinheads, spots are enlarged and cracking of caps
become more conspicuous. The lesions, in later stages extends to stipe also. A
number of species of Penicillium including
P.cyclopium or generally encountered
in the compost straw heaps, grain spawn and casing soil.
CONTROL
·
Green mould can be
prevented by good hygiene, proper pasteurization and conditioning of compost,
sterilizing the supplements before use and mixing them thoroughly after spawn
run, using the correct concentration of formalin (max.2%) and weekly spray with
diathan Z-78 (0.2%) or bavistin (0.1%), TBZ (0.2%) or treatment with Zineb or
calcium hypo chloride (15%).
COMPETETORE MOULDS / INDICATOR MOULDS / WEED
MOULDS
(1)
FALSE TRUFFLE- TRUFFLE DISEASE
|
Whitish,
solid, wrinkled and rounded to irregular fungal masses of false truffle
|
|
Truffle
|
It is the
limiting factor in the cultivation of A.bitorquis in our country. In A.bisporus
sps, it is mostly noticed during late February or early march in the plains of
northern India in the winter crop. The white colour of the mycelium turns
creamy yellow at a later stage. It appears as small wefts of cream coloured
mycelium in compost and casing soil, usually more conspicuous in the layer
where compost and casing mixture meet and also on casing gradually, the
mycelium growth becomes whitish, solid, wrinkled, round, to irregular fungal
masses resembling small brains at maturity, these turn pink, dry and reddish
and finally disintegrate in to powdery mass emitting a chlorine like odour. The
fungus does not allow the mycelium to grow and compost turn dull brown the
spawn in affected patches turns soggy and disappear
CONTROL
·
Compost should be prepared on a concrete floor and
never on uncovered soil.
·
Pasteurization and conditioning of the compost
should be carried out carefully.
·
Temperature be not allowed to rise above 26-270C
during spawn run and after casing.
·
During cropping temperature should be kept below
180C.
·
Casing soils known to harbour traces of spares
should not be used.
·
Young truffles must be picked and buried before
the fruit bodies turn brown and spares are ripe.
·
Wood work, trays or side boards of shelf beds
should be treated with a solution of sodium pentachlorophenolate at the end of
the crop.
·
Effective cooking out kills mycelium and spores of
the pathogen in the compost.
·
In the initial stages treat the affected patches
with formaldehyde (2%) solution
(2)
OLIVE GREEN MOULD:
Causal organism - Chaetomium olivaceum and C.globasum
|
Olive
green mould
|
SYMPTOMS:
An inconspicuous greyish white fine mycelium
appears and become
visible on the surface 10 days after spawning. Initial spawn growth is delayed and
reduced, fruiting structures that took like green cockle burns. 1/16 inch in
diameter, develop on straw in isolated spots of the affected compost. The
compost develops musty occurs. C.globossum is also noticed on spawn bottles.
CONTROL:
·
The fermentation period of the compost should not
be too short.
·
The compost should be active, not too wet and with
a good structure.
·
Nitrogen, Ammonium sulphate, Urea, Chicken manures
or similar materials should not be added just before filling.
·
There should be sufficient time for peak heating
and sufficient supply of fresh air during pasteurisation.
·
Higher temperatures for longer time should be
avoided.
·
Benomyl, Thiophenate methyl, TBZ, Vitavex, dithane
z-78, dithane M-45, Thiram, and captan are effective under in vitro conditions.
·
Dithane Z-78 checks the secondary spread.
(3)
BROWN PLASTER MOULD
Causal organism: Papulospora
byssina
SYMPTOMS:
|
Brown plater mould
|
CONTROL:
·
Strict hygienic measures should be followed.
·
Composting should be done carefully, using
sufficient gypsum and not too much water.
·
Peak heating should be of sufficient duration and
at proper temperatures.
·
The compost should not be too wet before or after
peak heating.
·
Localised treatment of infected patches with 2-4%
formalin is cc
·
Spraying of systemic fungicides like benomyl,
carbendazim, Thiophante methyl and vitavex at 0.1% concentration is also
effective.
4) YELLOW MOULD (Mat-Disease or Vert-De-Gris).
Causal Organism: Myceliophthora lutea
|
Yellow
Mould
|
SYMPTOM:
The yellow moulds may develop in a layer
below the casing (mat disease), from circular in the compost (confetti) or they
may be distributed throughout the compost. M.lutea forms a yellow brown corky
mycelial layer at the interphase of compost and casing, which is difficult to
detect during the impregnation of casing layer by the spawn and even during the
first break.
CONTROL:
·
Proper pasteurization of the casing mixture is
very essential.
·
Fungus is killed at the exposures for 6hrs at 510
C or 4hrs at 540C.
Benomyl (400-500ppm) and blitox (400ppm) sprays are
effective.
·
Spraying with calcium hypochlorite solution (15%)
is also effective.
5) SEPEDONIUM YELLOW MOULD:
Causal organism: Sepedonium
spp.
|
Sepedonium
Yellow Mould
|
SYMPTOMS:
This
mould in the compost is initially white in colour turning to yellow or tan at
maturity. It is generally present in the lower layers of the compost or at the
bottom of the cropping bags. Various types of distortion in fruiting bodies are
commonly observed. The toxins inhibit the spawn-run and ultimately mushroom
mycelium disappears from the compost.
CONTROL:
·
Strict temperature monitoring and control during
compost pasteurization and an adequate post-crop cooking out are essential to
eliminate the infestation.
·
High efficiency air fillers should be installed.
·
Incorporation of 0.5% carbendazim in compost and
sterilizing the chicken manure with 2% formalin or 0.5% carbendazim is useful.
(6) INK CAPS, INK WEED/WILD MUSHROOM :
Causal organism : Caprinus
spp
Ink cap appear in the compost during spawn-run
or newly raised beds and outer surfaces of the compost piles during
fermentation. They are slender, bell shaped mushroom, cream coloured at first,
bluish black later and are usually covered with scales. Ink caps finally decay
and form a blackish slimy mass due to autodigestion.
|
Ink
Caps
|
CONTROL:
·
Use properly pasteurised compost and casing soil.
·
Avoid excessive watering, rogue out young fruit
bodies of the weed.
(7)
PINK MOULD
Causal organism: Cephalothecium
roseum
SYMPTOM:
This mould has been observed as a
white growth on the casing soil which turns pink in due course. Infection
generally comes through air
|
Pink
mould
|
CONTROL:
·
Mould can be checked by spraying twice with thiram
or captan (0.04%) on casing soil at 10 days interval.
(8) WHITE PLASTER MOULD:
Causal
organism: Scopulariopsis fumicola
|
WHITE
PLASTER MOULD
|
SYMPTOM:
This disease appears as white
patches on the compost or casing soil. The patches or mycelium mats may be more
than 50cm under favourable conditions. The white growth changes to light pink
after a week of the formation of the spot. Spawn-run is reduced significantly.
The pathogen is favoured by under or over composted compost which still remains
the smell of ammonia and pH more than 8.0
CONTROL:
·
Proper composting and addition of optimum
quantities of water and gypsum are recommended.
·
Sprays of benomyl (0.1%) and local application of formalin
(4%) after the removal of mat are helpful.
9) LIPSTICK MOULD
Pathogen: Sporendonema purpurescens
SYMPTOM:
|
Lipstick
mould
|
The disease
first appears in spawned compost as a white crystalline-like mould, rather nondiscernable from spawn. As
the spore of the mould mature, the colour changes from white to pink, to cherry
red and then to dull orange or buff. White mycelial growth is more in loose
areas of casing and can colonize well-conditioned compost. In crops where there
is a serious virus disease, lipstick mould usually occurs as a secondary
disease.
CONTROL:
Good
hygiene is essential. Good pasteurization and conditioning of the compost will eliminate
the pathogen.
BACTERIAL DISEASES
In India,
bacterial diseases have been reported on A.bisporus, Pleurotus spp, and
volvariella sp only.
On white
button mushroom, only bacterial blotch is important in India.
(1) BACTERIAL BLOTCH, BROWN BLOTCH OR BACTERIAL SPOT :
Causal organism: Pseudomonas fluorescens
SYMPTOM:
·
The pathogen induces lesions on mushroom tissues
that are pale yellow initially but became golden yellow or chocolate brown
later
·
Blotches generally appear when mushrooms are in
the early button stage, but can appear on mushroom at any growth stage.
·
The spots enlarge and coalesce, sometimes covering
the entire mushroom cap.
|
Brown
Blotch or Bacterial Spot
|
CONTROL
·
Spraying of chlorine solution (0.015%) at 0.5
litre/m2 along with environmental control gives of bacterial blotch.
·
Application of tetramycin at 9mg/sq foot,
streptomycin (200) oxytetracycline(300).
·
Pasteurization of casing soils by steam/air
mixture and short wave length irradiation have been reported effective in
eliminating the bacterial pathogen.
·
Overheating should be avoided otherwise successive
invasion of moulds would be very high.
VIRAL DISEASES
The various
early names coined for mushroom virus disease give some indication of the
diversity and variation of symptoms caused by viral infection. The symptoms,
which have frequently been described may be expressed individually or in
various combinations and in a wide range of severity. The symptoms of virus
disease vary from reduced yield to distorted mushrooms.
The full
range of symptoms that are encountered in non-hybrid mushrooms are also seen in
hybrid mushrooms. In extreme cases all sporophore initiation is inhibited and
the vigour of the mycelium is severely reduced while in other cases it is
difficult to detect these symptoms.
The general symptoms observed are as
below:
1. Mycelium
does not permeate or hardly permeates the casing layer or disappears after the
normal spread. Mushrooms appear only in dense clusters, maturing too early.
2.
Mycelium isolated from diseased
sporophores on agar shows a slow and degenerated growth as compared with
healthy mycelium.
3.
The delayed appearance of the pinheads
of the first flush can be an important indication of the disease as well as the
formation of fruiting primordia below the surface of the casing layer.
4.
Symptoms of sporophores are highly variable.
The following abnormalities can be found separately or in combination:
a) Slow
mycelial growth, development of abnormal mushrooms.
b) Slow
development of pinheads, dwarfing.
c) Delay
in appearance of sporophores, reduced yield.
d) Off-white
colour of the cap and early maturity.
e) Sporophores with elongated stems and small
caps.
f) Elongated slightly bent stipes, sometimes with
small early maturing pileus.
g) Premature
opening of veil.
h) Mushrooms
are loosely attached to the substrate and at the slightest touch are pushed
over.
i) Accelerated
post-harvested deterioration.
j) Watery
stipes, streaking in the stipes.
k) Stipes are spongy and quickly turn brown on
cutting and show an abnormal structure.
l) Thickened
barrel-shaped stipes; the veil is attached to the thickest part of the stipe,
thus lower than usually. Pilei are small and fat.
m) Brown,
slimy, cap occur owing to a secondary bacterial rot, stipes are sometimes
tapering. Downwards during the first flush, sometimes a few light brown caps
can be observed.
n) Veils
abnormal or absent, hard gills are common.
5)
A specific musty smell can be perceived
in a growing room infested with
the disease. Whereas in Pleurotus, virus infection causes
dwarfing or elongation of stipe. However, no distinct symptoms.
MANAGEMENT OF MUSHROOM VIRUSES
For
adopting suitable management strategies for mushroom viruses, one has to keep
in mind that the disease is spread by viable mycelium and spores of diseased
mushrooms; early infection is dangerous, especially an infection simultaneous
with or shortly after spawning. Up to the time of casing, the compost and
mycelium must be protected. Owing to the lack of useful resistance with the
species, control of the disease is based largely on the use of hygienic
practices directed at the elimination of diseased mycelium and basidiospores
from the production. Dieleman has suggested various approaches to reduce the
spread of mushroom virus diseases which have been summarized below:
When the disease is not present –
1. Steam
the compost for 12 hours at a temperature of 70°C. At emptying, remove the
compost quickly.
2.
Spray the wood with 2 per cent sodium
pentachlorophenate to which 0.5-1.0 per cent soda (Sodium carbonate) has been
added, after drying spray with water.
3.
Disinfect doors, little holes in the
floor, shutters, racks, floors and walls with formaldehyde (not with sodium
pentachlorophenate). Also clean the manure yard and adjacent patches of ground
with formaldehyde.
4.
Before filling, fit spore filters,
during growing time these spore filters should be replaced once or twice according
to the amount of dust in the air. Use a fan for extracting air.
5.
Immediately after spawning, use a
pesticide against flies and cover the compost with paper. Keep the paper moist.
Wet the paper twice a week with a 2 per cent solution of the 40 per cent commercial
formaldehyde. Repeat till a few days before casing. Never use sodium
pentachlorophenate here. Moisten the paper before removing it carefully.
6.
Quickly remove cuttings and litter and
destroy.
7.
The entire farm and its surroundings
should be maintained very clean and stay so. In the working corridor
formaldehyde should be sprayed. Machines, refrigerator and other utilities
should be disinfected with a formaldehyde solution.
8. At
the first sight of contamination, the disease can be controlled best by immediately
steaming out the concerned room.
When the disease is already present
1. Immerse
the wood in a 4 per cent Sodium Pentachlorophenate solution to which 0.5-1 per
cent sodium carbonate has been added.
2. Pick the mushrooms when still closed.
3. Keep
each room as a separate entity with separate clothes, shoes, steps, buckets,
picking knives, picking racks, fans etc. Kill off diseased patches with salt
and cover with plastic, make the limits of the patches rather big. First pick
from the healthy parts then from the diseased patches. Wash hands often.
4. Admit
as few visitors in the diseased rooms as possible and keep the door towards the
working corridors closed. Kill off pests in particular. Have a short picking
period only (not more than 4 weeks).
Heat Therapy
When
infected cultures were grown at 33ºC for 2 weeks, and hyphal tips then sub
cultured and returned to 25ºC, many of the latter showed normal growth and did
not contain virus.
Spawn Strains
Immunity to
the virus disease of the cultivated mushroom, A.bisporus has been found
in several strains of the white mushroom, A.bitorquis, collected from
nature. Some strains of A.bisporus do not show symptoms as markedly as
others. These are the brown, cream and off-white strains, or some smooth-white
strains known to anastomose less frequently with others, or A.bitorquis can
help to reduce the general virus inoculum and can enable economically
worthwhile crops to be grown. Hybrid strains can anastomose with both white and
off-white strains and therefore, their widespread culture may reduce the
effectiveness of strain alteration as a means of virus control.
MUSHROOM PESTS
Mushroom
are grown on a continuous cycle throughout the year, in a protected environment
of warm, constant temperatures and high
Humidity.
When a potential pest is first noticed, it is
extremely important to identify it correctly as control regimes for the various
pests differ in enough aspects to cause control facilities if a misidentification
occurs.
INSECT PESTS
1. SCIARIDS : (Lycoriella solani and L.auripila)
SYMPTOMS :
|
Mushroom
flies
|
CONTROL:
Access of sciarid adults to peak
heat and spawn running rooms, must be prevented with the use of screening on
ventilation ducts and efficient ceiling around doors. Where resistance to organophosphorus
can be mixed into compost at spawning. Casing material should be treated with
diflubenzuron to kill the larvae.
Diflubenzuron can
also use as a post casing drench use sticky traps to monitor flies in the spawn
running. Use effective screening of ventilation ducts, in the peak heat and
spawn running room. Use knock down sprays during the first week spawn run and
the first week of spawn run and the first week after the casing. Incorporate
diflubenzuron in the casing.
2) PHORIDS: (Megaselia halterata)
|
Phorid
fly (Megaselia
halterata) on a mushroom cap
|
M.halterata
larvae feeds only on mushroom mycelium and consequently able to cause reduction
in the yield. The fields are normally most numerous in summer and late autumn.
They are
also vectors of verticilium by acting as vectors flies pose a greater threat to
the mushroom crop.
CONTROL :
·
Dichlorovos is useful chemical as it has both
contact and volatile action on flies.
·
To kill larvae and compost diazinon (or) chloropyriphos
must be incorporated at spawning.
·
Care should be taken to keep the insecticides and
spawn a part as far as possible during spawning process.
3) CECIDS:
|
Cecids
fly
|
SYMPTOMS :
With
H.pygmea the loss in marketable yield due to spoilage is attributable not to
only to the presence of the larvae on mushroom. But also to bacteria which are
present on their skin. These cause brown discoloured stripes on mushroom
stripes and gils. The delicate gill tissue can then break down to produce tiny
postules of black fluid.
CONTROL :
·
Observe strict hygiene throughout the farm.
·
Dip wooden trays in 2% Sodium Penta Chlorophenoxide.
MUSHROOM MITES
o
Mites are abundant in the compost during phase 1
composting.
o
Most of the easily visible species are predatory,
seeding mainly on nematode. And other species of mite which are present at this
time
(1) Tarsonemid mites : (Tarsonemus myceliophagus)
|
Mite’s
infection
|
SYMPTOMS :
Mites cause a reddish brown discolouration and
rounding of the base of affected mushroom stipes. However, where on
infestations occurs soon after spawning, large populations may develop, with a
subsequent increase in damage symptoms such that the whole of the sporophore
may be discoloured
CONTROL:
Ø To kill mites at the end of cropping, a normal
cookout should be ample because a 20min exposure
(2) Predatory mites : (Parasites
fumetorum, Digamasellus fallax, Arestoseius ceratus)
SYMPTOMS:
They cause no symptoms on the mushroom crop
but, as they can easily be seen running over the surface of the casing,
mushroom and trays in search if their prey, they can be a source of irritation
to pickers.
CONTROL:
Ø They are
beneficial mites, so no measures should be taken to control them. Identify the
pests on which the predatory mites are feeding and take appropriate measures.
The most
common mites seen during mushroom cropping are the red pepper mites.
SYMPTOMS:
|
RED PEPPER
MITES
|
CONTROL:
Efficient
composting and peak heating of fresh (mushroom) manure to produce a medium
selective for mycelium, is the most important way of avoiding trouble with red
pepper mites. Observe strict hygiene throughout farm. Make sure that composting
and peak heating are efficient.
Bad
harvesting practices, such as leaving cut stipes on chugs on the beds, can also
encourage the development of these nematodes as they will feed on the decaying
mushroom tissue.
NEMATODES
Many different species of
nematodes can be found associated with decaying organic matter. These nematodes
that feed on decaying mater are saprophagus, & fungal feeders are
mycophagous nematode.
|
The
swarming of nematodes of the casing surface
|
1) SAPROPHAGUS NEMATODES:
SYMPTOMS:
|
Death
of pin heads
|
2) MYCOPHAGUS NEMATODES :
|
Half-empty
beds – the result of severe infection of the casing layer by nematodes
|
SYMPTOM:
If
contamination occurs early, the numbers of nematodes can reach a level
sufficient to destroy the mycelium. Subsequent bacterial action infested
compost to become dark and sodden, often in defined patches, with a distinctive
pungent smell. These patches can increase in size from the 2nd flush
onwards
CONTROL
Where
insects or nematodes are present, then dry peat should be fumigated with methyl
bromide or pasteurized by steam. Observe strict hygiene throughout the farm.
Ensure that the temperatures during peak heat are satisfactory. Make sure that
all the spent compost is removed from the farm.
Abiotic Disorders
Ø In
addition to biotic agent which adversely affect the mushrooms, there are a
large number of abiotic agents which create unfavourable environment for the
proper growth of mushrooms resulting in the quantitative as well as qualitative
loss.
Ø These
abiotic agents include low or high moisture in the substrate, pH and
temperature, CO2 concentration in the room, wind velocity, fumes and relative
humidity.
Ø Many
of these agents make the substrate nonselective for mushroom mycelium and
encourage other moulds and pests while some interfere with the normal mushroom
production.
Ø Management of environment is of great
significance in mushroom cultivation and any deviation from the optimum
requirements may lead to various kinds of abnormalities.
The
following abiotic disorders are quite frequently observed.
1. Stroma
Common Name: Stroma, Sectors, Sectoring.
Stroma are noticeable aggregations of
mushroom mycelium on surface of spawned compost or the casing. Discrete aerial
patches of white mycelium form a dense tissue layer on the substrate surface.
Stroma
can be easily peeled from the surface of compost or casing. Stroma form on the
compost in small localized areas and the smaller patches can coalesce into
larger areas.
After
casing, stroma may form on the casing above a patch of compost-borne stroma or
on casing where stroma does not exist in the compost. Stroma on casing develops
in advance of pinning but rapidly putrefies once watering begins. Mushrooms can
develop on stroma, but this is somewhat unusual.
A
sector is a portion of spawn that is distinctive when compared to the general
appearance of spawn. A sector may be extra-white, extra dense or extra-ordinary
fluffy and is always different from the normal spawn. Sectors appear on or in
the compost and on the casing, and tend to disappear as the crop ages.
Removing
patches of stroma does not ensure growth of mushrooms in these areas, so
removal of stroma is a matter for each farmer to decide. This disorder has been
commonly observed in seasonal farms in HP where proper aeration is lacking.
2. Weepers
Common names: Stinkers, Leakers
·
Mushrooms described as being ‘Weepers’
typically exude considerable amount of water from mushroom cap.
·
When small water droplets exude from
stem or cap, the mushrooms are called leakers. These water droplets may be few
in number and relatively isolated from each other or may be sufficiently
numerous to cover the mushrooms.
·
The distinction between a ‘leaker’ and
‘weeper’ is that the water droplets remain as droplets on the leaker mushrooms
while it actually falls or flows from a weeper.
·
Weepers are usually noticed since they
are quite unusual. A weeping mushroom can dissolve into a white foam. Water
collects on the casing surface beneath a weeper and the area develops a putrid
odour becoming a ‘stinker’.
·
Factors that induce a mushroom to
become a weeper are not known but low-moisture compost-less than 64% coupled
with high moisture casing is where weepers are frequently seen.
·
The combination of these two conditions
often foster weeper mushrooms prior to and during the first break. Smooth white
mushrooms seems to have some sort of protection against leakers and weepers.
Other major types-off-white, cream, golden white are susceptible to this malady.
3. Flock, Hard Cap And Open Veil
Common
Names: Flock, Hard Cap, Open Veil, Sagging Socks.
·
Flock is a physiologically induced
malformation of the mushroom’s cap and gill tissue.
·
The cap opens pre-maturely and the
gills of the affected mushrooms are rudimentary, poorly developed and have
little pigmentation.
·
The flocked mushrooms generally appear
in first flush and may disappear in subsequent flushes but in some cases it
continues increasing in subsequent flushes.
·
Environmental conditions including
diesel exhaust, oil-based point fumes and certain anticorrosive chemicals in
steam boilers or certain diseases like dieback, brown plaster mould and false
truffle induce flock symptoms.
4. Hollow core and Brown pith
·
These two disorders seem to afflict
cream strains much more than other strains, although off-white strains can have
hollow core.
·
When the bottoms of the stems are
trimmed after harvesting, a circular gap is seen in the centre of the stem.
·
This hole may extend the length of the
stipe or it may be shorter.
·
When the hollow cut end portion is
brown in colour the sale price is considerably reduced.
·
This abnormality seems to be related to
watering and water stress.
5. Purple stem
Common Names: Purple Stem, Black Leg, Storage Bum.
·
Cut stems of the mushrooms develop a
deep purple colour within few hours of harvest or after being in cold storage
(36ºF) overnight.
·
At times colour is closer to black than purple
and it occurs in all strains smooth white, off-white, cream and brown.
·
Generally mushrooms from 3rd break to
the end of the crop are most susceptible.
·
Polyphenol oxidase, an enzyme increases
in later-break mushrooms and this enzyme influences pigment formation.
·
Conditions that predispose mushrooms to
this phenomenon are unknown but the frequency and the amount of water applied
before harvest seems to affect its occurrence.
6. Rose Comb
·
Large lumps and swelling are visible on
the mushroom cap.
·
The gills often grow in the top of the
cap tissue and even on the top of the cap.
·
These misshapen gills make the
swellings look spongy.
·
The mushrooms can even burst or split
and then turn brown.
·
The abnormality is caused by gases or
vapours coming from solvents, paint or oil products and polluted casing soil.
7. Scales or crocodiles
·
Scales arise through the surface tissue
failing to grow while the cap develops further.
·
The main reason for scales being formed
is poor climate control, in particular too much drying out or too great air
velocities.
·
Strong vapours of formaldehyde or
pest-control products in excess can also cause the outer layer of the skin of
half-grow mushrooms to tear off.
·
As the mushroom continues to grow, the
skin bursts and so-called ‘crocodile’ skin is formed.
·
The off-white and cream mushroom
strains are more sensitive to scales than white mushrooms.
·
This is the most common and serious malady
affecting button mushroom in seasonal farms in HP.
8. Long stemmed mushrooms
·
The presence of long stems in
combination with a number of other symptoms can indicate virus diseases but it
is often the result of too high CO2 concentration so that the stems extend more
(drumsticks).
·
With the improvement of aeration such
conditions can be avoided.
9. Brown
Discolouration
·
Browning of small pin heads or half
grown mushrooms is very common on seasonal mushroom farms.
·
This may be caused by high temperature,
sprinkling at high water pressure (maximum pressure is 0.4 atm), chlorinating
with too high a chlorine rate [maximum rate is 500ml (10%) per 100 litre of
water per 100m²] or incorrect use of formalin, e.g. by spraying the mushrooms
with a formalin solution.
Cobweb disease
Competitor fungus
Brown plaster
Inky caps
Mushroom mites
Mushroom nematode
False truffles
