INVENTORY
OF FUNGI FOUND AT COL. DANFORTH PARK
SEPTEMBER
30, 2006
As part of the Highland Creek
Community Stewardship Program, the Mycological Society of Toronto (MST) was
asked to participate and lead the foray “Fungus Amongst Us” with the objectives
of providing the public with a discussion of the various species of fungi, and
the role these play in forest health in the Highland Creek watershed. The Program is supported by Toronto Region
Conservation Authority, City of Toronto, Scarborough Arts Council, and
Centennial Community & Recreation Association.
Fungi are essential for
healthy forests. In part, this is
because they form mycorrhizal associations with trees, shrubs, and herbs which
enable these plants to exploit water and nutrients more effectively. Without these fungi, many plants, especially
trees, are unable to grow or grow extremely poorly. Also, fungi are the main agents in the breakdown of wood, and
thus make a major contribution to nutrient recycling in forests and other
ecosystems.
The foray was led by Dr.
John Sparling with assistance from Tony Wright and Brenda Gibson; all members
of the MST. The foray took place on the
30th
of September between 1:00 and 4:00 pm.
There were approximately 70 participants. A list of species found is provided below. We refer to each species by its binomial
name since common names vary between users and from region to region. We have also included common names taken
from various mushroom field guides where these are available.
Nearly
90 species were identified. They are
arranged in groups which generally follow those of Lamoureux (2000).
Toronto
Parks and Toronto Region Conservation Authority properties maintain a no
picking of fungi policy. The picking of
fungi for identification was permitted for the purpose of this inventory.
The
list below provides an inventory of the species found.
1.
SLIME MOULDS
Slime
moulds are small slimy amoeboid organisms that engulf bacteria and other
detritus, eventually transforming or coming together to form spore-bearing
structures. Slime moulds were once
included in the fungi; however, DNA analysis indicates that they are only
distantly related and have affinities with unicellular animals. They are included in the Phylum
Myxostelida. Mycologists still include
them in their studies.
Ceratiomyxa fruticulosa (Coral Slime)
Fuligo
septica (Scrambled Egg Slime)
Lycogala epidendrum (Wolf’s Milk
Slime)
TRUE
FUNGI
2. CUP FUNGI, CARBON BALLS,
AND EARTHTONGUES
This group of
fungi forms small to large cup-like spore-bearing structures. They grow on logs, branches and on the
ground. Often brightly coloured browns,
orange, red, green or blue. Several are jet black in colour and form crusts or
balls on decaying logs, and are often mistaken as charcoal from a previous
woodland fire.
Apiosporina
morbosa (Cherry Black Knot)
Bisporella
citrina (Yellow Fairy Cups)
Daldinia
concentrica (King Alfred’s Cakes)
Humaria
hemisphaerica (Brown-haired White
Cup)
Microglossum
rufum (Small Yellow Tongue)
Orbilia
curvispora (Small White Cup)
(Uncommon in our area)
Peziza
badio-confusa (Common Brown Cup)
Peziza repanda (Recurved Brown Cup)
Peziza
succosa (Yellow-staining Brown
Cup)
Rhytisma
acerinum (Maple Tar Spot)
Scutellina
scutellata (Eyelash Cup)
Ustulina
deusta (Carbon Cushion)
Xylaria
longipes (Dead Moll’s Fingers)
3.
JELLY FUNGI
This group of
fungi are gelatinous in texture, and are often bright yellow growing on rotting
wood and are related to mushrooms and bracket fungi. Some other species are white, reddish or brown in colour.
Dacrymyces
palmatus (Orange Jelly)
Dacryopinax spathularia (Fan-shaped Jelly)
4. POLYPORES
AND PARCHMENT FUNGI
This group of
fungi includes many of the bracket fungi often seen growing on dead or dying
trees and logs. They are important
contributors to the break down of wood in the forest and the recycling of
nutrients as well as soil improvement.
Mostly, they have a hard or corky structure. Several have been used for various purposes such as the Tinder
Bracket were used by First Nations as tinder to light fires. Some provide dyes or have been used
medicinally.
Bjerkandera
adusta (Smoky Polypore)
Daedalopsis
confragosa (Maze Polypore)
Fomes fomentarius (Tinder
Polypore)
Ganoderma applanatum (Artist’s Conk)
Ganoderma tsugi (Hemlock Varnish Polypore) (used medicinally)
Gloeophyllum
sepiarium (Yellow-red Gill
Polypore)
Irpex
lacteus (Milk-white Tooth
Polypore)
Ischnoderma
resinosum (Resinous Polypore)
Oligoporus
chioneus (White Cheese Polypore)
Oxyporus
populinus (Mossy Maple Polypore)
Phlebia
tremellosa (Jelly Phlebia)
Piptoporus
betulinus (Birch Polypore)
Plicaturopsis
crispa (Crimped Gill)
Polyporus
badius (Black-footed Polypore)
Polyporus
brumalis (Winter Polypore)
Polyporus
elegans (Elegant Polypore)
Polyporus
squamosus (Dryad’s Saddle)
Stereum ostrea (False Turkey-tail)
Stereum complicatum (Yellow-margin False Turkey-tail)
Trametes
elegans (Elegant Bracket)
Trametes
pubescens (Pale Polypore)
Trametes
versicolor (Turkey-tail)
Trichaptum
abietinum (Violet-toothed
Polypore)
5. TOOTH FUNGI
The
spore-bearing surface in these fungi covers a surface of conical teeth which
are borne on the underside of the fruiting.
Some are hard and corky, while others, and all those found on the foray,
are delicate and pure white in colour.
Hericium
americanum
Hericium
coralloides (Comb Tooth)
6.
CORAL AND CLUB FUNGI
These fungi
are found growing from the ground or well-rotted logs, they may be unbranched
or repeatedly branched, and the species range in colour from pure white,
yellow, pale pinkish-brown or purple.
Clavicorona
pyxidata (Crown-tipped Coral)
Clavaria
vermicularia (White Worm Coral)
Ramaria
sp. (Branched Coral)
Thelephora
caryophyllea (Carnation Ground
Fan)
7. CLAVARIAS AND ALLIES
This family
includes some of the choice edible fungi such as the ‘chanterelle’ and the
‘horn of plenty’ They are more frequently found during the summer. The spores develop on folds on the outer
surface. The folds resemble true gills
but are developed differently.
None found.
8.
OYSTER MUSHROOMS AND ALLIES (Pleurotoid Fungi)
These are
gilled mushrooms resembling bracket fungi, and they fruit shelving on
wood. They play an important role in
nutrient recycling.
Panellus
stipticus (Bitter Oyster)
9. WAXYCAPS
Fungi in this
family are often bright scarlet, red or yellow. The Parrot Waxycap, Hygocybe psittacina, is quite spectacular
being bright green when young. All
appear waxy to the touch, hence their common name.
Hygrocybe
conica (Conic Waxycap)
Hygrocybe
flavescens (Golden Waxycap)
Hygrocybe
miniata (Vermilion Waxycap)
Hygrocybe
niveus (Snowy Waxycap)
Hygrocybe
psittacina (Parrot Waxycap) (uncommon in our area, but commoner this
year)
Hygrocybe
punicea (Sticky-cap Scarlet
Waxycap)
10. TRICHS
AND ALLIES (Tricolomataceae)
This is a
large and diverse family of mushrooms. It
includes the Honey Mushroom, Armillaria mellea complex, a good edible and an
aggressive fungal parasite of trees.
Armillaria
ostoyae (Honey Mushroom) (one species in the complex)
Clitocybe
gibba (Forest Funnelcap)
Clitocybe
robusta (Robust Funnelcap)
Hypsizygus
tessulatus (Elm Oyster)
Laccaria
lacata (Deceiver)
Lyophyllum
decastes (Fried Chicken Mushroom)
11. COLLYBIAS,
MYCENAS AND OTHERS
This group
includes many of the fragile fungi, including Marasmius which dry up during dry
periods and revive completely following the next rainfall. Many are delicate with light shades of pink,
brown or yellows. There are choice
edibles in this group including the fungus ‘enoki-take’ or Velvet Stalk,
Flammulina velutipes.
Collybia
butyracea (Buttery Collybia)
Flammulina
velutipes (Velvet Stalk)
Marasmius
rotula (Pin-wheel Marasmius)
Mycena
haematopus (Bleeding Fairy Helmet)
Mycena
leaiana (Golden Fairy Helmet)
Xerula
furfuracea (Deep Root)
12. CORTINARIACEAE
This family
includes some very poisonous mushrooms including those that do not cause
gastric upsets, but affect other body organs.
Several are common in Col. Danforth Park. The Deadly Galerina that fruits on decaying logs contains
amatoxins, cyclic heptapeptides, which are responsible for many human
fatalities from eating fungi. No
mushroom is poisonous by simply touching the surface only by ingestion.
Crepidotus
mollis (Brown Crep)
Galerina
autumnalis (Deadly
Galerina)
Inocybe
fastigiata (Conic Fibrehead)
Inocybe
geophylla (Earth Blade Fibrehead)
13. AGROCYBES
None were
encountered during the foray.
14. PHOLIOTAS
AND ALLIES
These are
large and often spectacular fungi growing in large clumps on the sides of
trees. They are yellowish to brown in
colour and many have a viscid cap.
Pholiota
aurivella (Golden Scalecap)
Pholiota
malicola (Smooth Scalecap)
15. INK
CAPS AND ALLIES (Coprinaceae)
The gills of
many species in this family deliquesce as they mature to a black inky
liquid. Many are common on soils rich
in humus material, including dung.
Coprinellus disseminatus (Crumble Cap)
Coprinellus
micaceus (Mica Cap)
Coprinopsis
atramentaria (Alcohol Ink Cap)
Coprinus comatus (Shaggy Mane
Parasola
plicatilis (Japanese Umbrella
Inky)
Psathyrella
sp. (Psathyrellas)
16. AGARICS,
LEPIOTAS AND ALLIES
This group
includes the common store-bought mushroom, Agaricus bisporus. It also includes members of the genus
Lepiota which includes several very poisonous species, one of which caused the
death of a person in Toronto a year or so ago.
Lepiota
acutaesquamosa (Sharp-scaled
Parasol)
Leucoagaricus
naucinus (Smooth Parasol)
17. PLUTEUS
AND ALLIES
These are
pink-spored mushrooms, often including both edible and poisonous species. Common in our area is the Deer Mushroom
which fruits on rotted wood.
Pluteus
cervinus (Deer Mushroom)
18. AMANITACEAE
This family
includes some of the most deadly mushrooms including the Destroying Angel,
Amanita virosa. The active poison in
this genus is amatoxin. Two less
poisonous species were found in the park.
The family includes some of the most important mycorrhizal fungi, which
are essential for a healthy forest.
Amanita
citrina (False Death Cap)
Amanita
muscaria (Fly Agaric)
19. ENTOLOMATACEAE
These are
pink-spored mushrooms and include many poisonous species. One species only was encountered; it is
non-poisonous and frequently eaten in its aborted form as ‘Hunters’ hearts’. They are important mycorrhizal fungi.
Entoloma
abortivum (Aborted Entoloma)
20. LACTARIUS
AND RUSSULA
This family
together with the boletes and Amanita are the important mycorrhizal fungi. Milkcaps, Lactarius spp., produce milky
latex when the gills are cut. This
latex varies widely in colour, including white, cream, yellow, green and violet
and is important in determining the various species. Russulas are fairly closely related to the milkcaps, but produce
no milk, and have a brightly coloured skin over the cap. The cap may be white, yellow, bright red,
mauve or green. They appear to be
sparsely represented in the park.
Lactarius
sp. (Milkcaps)
Russula
silvicola (Woodland Brittlegill)
21. PAXILLUS
AND ALLIES
Some members
of this family form a symbiotic relationship with conifers. Several species have been used as a dye for
clothing. Some are regarded as edible,
however, others may affect the blood and immune systems.
Paxillus
atrotomentosus (Velvet-stalked
Pax)
22. BOLETES
This is another
important family that form mycorrhizal associations with forest trees. These are large mushrooms with pores on the
undersides rather than gills. Almost
all are edible although some should be avoided since they cause gastric
upsets. Species with reddish pores,
such as Boletus satanus are very suspect.
On the other hand Boletus edulis is the famous edible ‘Cep’ of European
cuisine. The group is an important food
for squirrels and woodland mice.
Several
species were encountered but all were decayed and no identification was
possible.
23. PUFFBALLS
AND ALLIES
The only
puffball encountered was the Pear-shaped Puffball, Lycoperdon pyriforme. Probably the absence of many of these fungi
was related to surface soil disturbance.
Lycoperdon
pyriforme (Pear-shaped Puffball)
In
conclusion, the foray was well attended, and interest was high. The inventory confirmed that there is a high
diversity of fungi within this urban park.
There are significant findings relating to the sparse numbers of some
mycorrhizal species which may indicate that surface soil disturbance is
affecting hyphal growth in the humus.
John Sparling
Mycological
Society of Toronto
October 10
2006