3. Mycorrhizae
0 The most prevalent beneficial organisms associated with
plants, however, are soil-inhabiting fungi that form mutualistic
root–fungal associations referred to as mycorrhizas
0 All mycorrhizas have intimate contact between hyphae and
plant cells in an interface where nutrient exchange occurs.
0 Majority of plants form mycorrhizas, it is likely to lie
somewhere between 80% and 90%. In many of these
associations between 10% and 30% of the food produced by the
plant moves through to the fungi.

4. Mycorrhizae
0 Mycorrhizas are found in a wide range of habitats,
including deserts, lowland tropical rainforests, high
latitudes and altitudes
0 Uptake of nutrient and Mineral nutrient acquisition from
soil is considered to be the primary function of
mycorrhizas, in addition to it’s roles in ecology, and man
economic uses..

5. The pioneering work of Frank , resulted in the
recognition of
two broad subdivisions of mycorrhizas,
Ectomycorrhizas and Endomycorrhizas

6. Mycorrhizae Types
Two major types of mycorrhiza occur in Nature
 Endomycorrhiza “vesicullar-arbuscular”
(common in more than 80 % of terrestrial plant
species)
 Ectomycorrhiza (specific to conifers and some
broadleaved woody species) %15 of plants
There exists other types: Ericoid, Orchid,
monotropoid mycorrhiza of less ecological
importance.

7. Ectomycorrhiza
The formation of a mantle or sheath of
hyphae that covers considerable
portions of lateral roots, the
development of hyphae between root
cells form a complex highly branched
structure called the Hartig net,
Ectomycorrhiza: root tip of
Pinus nigra colonised by
ectomycorrhizal fungus

8. Ectomycorrhiza
Ectomycorrhizas are usually
found on tree species
although a few shrub and
herbaceous species may also
develop this association. A
detailed list of the conifer
and angiosperm families.
*Fungi groups with
large fruiting bodies, e.g.
mushrooms,
truffles and puffballs.

9. Ectomycorrhizas can
also confer pathogen
resistance to their
plant partner, and
they are more
effective at this,
compared to AM
roots

10. It has been estimated that between 5,000 and 6,000
species of fungi form ecto- or ectendo-mycorrhizas.
Around 4,500 of these are epigeous (have above-ground
fruiting bodies), but up a quarter are hypogeous (with
underground fruiting bodies) such as truffles
White Truffles (Tuber magnatum). Fly agaric (Amanita
muscaria).

11. Endomycorrhiza
They are either Vesicular or
Arbuscular;
Consists of hyphae that
meander between the cortex
cells, and often enter them.
Vesicular-arbuscular mycorrhiza: Highly
colonized root of maize dyed with trypan
blue. Mycorrhizal formations are clearly
visible: 1) vesicles; 2) arbuscules

12. Main cellular features of the arbuscular endomycorrhiza
Hyphae from a germinating spore infect a root hair and can grow
within the root between root cortical cells and also penetrate individual
cells, forming arbuscules. These are finely branched clusters of hyphae,
which are thought to be the major site of nutrient exchange between
fungus and plant.

13. Fully developed arbuscule of Glomus mosseae in
cortical cell

14. •Arbuscules: transfer organs
of the mycorrhizae.
•Hyphae: connect root to
soil. Act as pipeline
•Spores: resting,
lipid filled structures.
Is the seed
of the fungus world.
•Identification
is based on these.

15. Many common desert plants, including cacti, are heavily
mycorrhizal.. indicating that mycorrhizas have a particularly
important role in water relations in dry ecosystems and in soils
with poor water retention

16. 0 Mycorrhizas increase nutrient uptake from the soil.
0 Mycorrhizal fungi can be used in the biocontrol of
pathogenic fungi and nematodes.
0 Some mycorrhizal fungi can bind heavy metals thus
protecting plants from toxic levels of these substances.
0 Mycorrhizas have a positive effect on the establishment of
plant communities.

17.  If no other factors
are limiting, growth
will be proportional
to the amount of P
absorbed by plants.
 Mycorrhizae may
supply up to 80%*
of the plant P.

18. Agricultural
advantages
• Allow plants to draw more
nutrients and water from the soil,
including phosphorus
• Result in vigorous and healthy
plants
• Accelerate rooting
• Increase plant survival
• Increase drought tolerance and
others stresses
• Enhance flowering and fruiting

19. Ecological Importance
0 Improvement of soil structure • Stimulation of
beneficial microbial activity
0 Water infiltration improvement • Reduction of erosion
and nutrient leaching

20. 0 AM ; also contribute to microaggregate formation in soils
due to the production of a glycoprotein called “glomalin”;
glycoprotein that acts as a glue for soil structure.
0 Aggregate formation reduces decomposition of SOM,
maintaining C in the soil. SOM also holds water and retains
nutrients.

22. Reference:
0 Books:
-Mycorrhiza anatomy and cell biology
-Mycorrhiza symbiosis 2nd edition
0 Websites:
-http://mycorrhizas.info/index.html
-http://en.wikipedia.org/wiki/Mycorrhiza
-http://www.mycorrhizae.com/
-http://www.world-of-
fungi.org/Assets/Mostly_Mycology/Diane_Howarth/my
corrhizal%20types.htm