Symbiotic association of lichen and micorrhiza and their significance.pptx

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. Teacher – Dr. Sarika Torawane Madam SAVITRIBAI PHULE PUNE UNIVERSITY DEPARTMENT OF EDUCATION AND EXTENSION SYMBIOTIC ASSOCIATIONS OF LICHEN AND MYCORRHIZA AND THEIR SIGNIFICANCE BY Sanket Dnyanoba Singapure

Symbiotic Associations Of Lichen , M ycorrhiza And Their Significance Lichen Mycorrhiza

Contents …….. 1. Symbiotic Assosiation of lichen and their Significance …… Structure of thallus Morphology and anatomy of Lichen Reproduction in lichen Significance of lichen 2. Symbiotic Association of Mycorrhiza and their Significance ….. Types of Mycorrhizae Ectomycorrhizae Endomycorrhizae Ectendomycorrhizae Significance of Mycorrhizae .

Symbiotic Associations Of Lichen And Their Significance Lichens are the symbiotic organism composed of fungal partner called mycobiont and one or more photosynthetic partner called as photobiont , which is either algal or cyanobacteria . Swiss botanist schwendener in 1968 discovered the dual nature of lichen . Lichens of arctic

1. Structure Of Thallus There are four parts of structure of thallus : Cortex photobiont : algal layer Mycobiont medulla

a . Cortex : Most of the Lichens are having both upper as well as lower cortex . Similar to epidermis of leaf with varied thickness and are tight structure of two types of tissues . In foliose lichen lower cortex is well developed . function of cortex is protection of photobiont and medullar layer. Cortex formation in plants

b . Photobiont : [ Algal Layer ] Nearly 40 genera of algae and cyanobacteria are reported as a photobiont of lichens - out of which 25 genera of algae and 15 genera of cyanobacteria . Most common genera are Trebouxia , Trentepohlia , are belonging to green alga and are eukaryotic in nature and Nostoc , belongs to cyanobacteria . The main function of photobiont is photosynthesis , symbitic partner establishment . The photobiont are multiply by mitosis and by aplanospore formation . Sexual reproduction of photobiont is not observed in lichen symbiosis.

C . Mycobiont Mycobionts are also called as lichen forming fungi , mycobiont belongs mostly to Ascomycota [98%] rarely to Basidiomycota [0.3]. Ecologically lichen forming fungi are obligate , but physiologically they are facultative biotrophs .

D. Medulla Consist of loosely interwoven hyphae forming weakly gelatinized and cottony layer with internal spaces . Strengthen due to para or Plactenchymatous tissues . This region generally produced lichen substances and calcium oxalate crystal . Function : Greater water holding , food storage region , exchange of gases Pith [ medulla ] formation and function in plants

Attachment of thallus : Thalli fasten to substratum and lower cortex developed attachment to the substrate . In crustose lichens a prothallus formed by Prosoplectenchymatous tissue around and below the main thallus and established the attachment with substrate . In foliose lichens attachment to the substrate is by Prosoplectenchymatous hyphae called Rhizines . In fruticose lichen , hyphae fasten to the substratum and attached to it by forming holdfast . Another type of attachment is cilia , fibrillar outgrowth emerging from margin , unbranched / branched , simple and Bulbate .

2. Morphology and Anatomy of Lichen Thallus The varied morphology of lichen thallus is primarily determined by peculiar structure and mycobiont , a very few lichens habit morphology is determined by photobiont . Morphologically lichens are classified in to three main morphological growth forms : Crustose lichen Foliose lichen Fruticose lichens

1. Crustose lichen : Thallus is tightly attached to the substrate with their lower surface . The thallus is either homoiomerous i.e. primitive type in which the algal and fungal partner partners are forming distinct zone . Crustose lichens are generally endolithic and endophloeodic . Crustose lichen thallus producing areoles , is a polygonal part of thallus containing both the symboionts .

Partially attached to the surface of substrate , flattened leaf like structure, flattened leaf like structure, dorsiventral, with distinct upper and lower surface, either homoiomerous or heteroiomerous . The margin is lobed and branching, two types of forms are observed in foliose lichen, Lanciniate type of foliose lichen is lobate, homoiomerous or heteromerous . The lower surface of thallus is attached to substrate by rhizines , cilia to tomentum . Umbilicate type lichens unbranched single lobed, circular thalli or multilobed thalli with limited branching patterns and depressions on the upper side of thallus . 2. Foliose Lichen

3. Reproduction in Lichen Thallus Vegetative Reproduction : Simple Fragmentation : It is natural type where fragment of thallus is detached from parent thallus and gives rise to new thallii . Bulbil Formation : parenchymatous globular multilayer outgrowth having algal partners only can propagate in to new thallii .

Vegetative Diaspore Vegetative Diaspore Isidia : Isidia are formed on the upper surface of thallus simple, stalked, cylindrical or branched outgrowth . Isidia is composed of both the partner algal and fungal partners covered with cortex . Different shapes of isidia are observed in lichens . Under favourable condition, isidia gives rise to new substratum . Different shapes of Isidia

2. Soredium : Soredium formed small protuberance on the upper surface of thallus . Soredium is pustule like structure containing few algal cells surrounded by fungal hyphae . Under favourable condition sorelia developed in to new thallus on new substratum . Vegetative Diaspore

Sexual Reproduction Sexual Organs : Carpogonium is a female reproductive structure developed coiled structure in the medulla region and it form a tube which is growing upto the surface of thallus . The male reproductive structure is spermogonium which is flask shaped structure . The hyphae of spermogonium produced number of non-motile male gamete called spermatium . Sexual organs of lichen

4 . Significance of Lichens Food : In india , some species of parmelia are used as curry powder or whole thallus used in food dishes such as gharam masala, meat masala and sambar masala. Invertebrate such as termites, caterpillars,snails,slugs feed on some gelatinous lichen . Lichens like lecanora Saxicola and aspicilia calcarea etc. are used as food by snails, caterpillars,termites,slugs etc . Fodder : Ramalina traxinea , R. fastigiate, Evernia prunastri , lobaria pulmonaria are used as fodder for animals, due to the presence of lichenin,a polysaccharide . Most useful species for grazing are reindeer lichen such as cladonia rangifera and cl. Alpestris . # The lichens are useful to human beings in various ways such as food , fodder, used in industry , medicine and ecological importance .

Medicine : In Atharveda [ 1500 B.C. ] , first record of the use of a lichen , shipal as a medicine . In india Charila lichen is widely used in ayurveda from ancient system of medicine for various disease and disorders e.g. skin diseases, urinary troubles,vomiting , heart trouble cough,fever etc. SHAILAYA and SHILAPUSHP are the Sanskrit names of species of parmeloid lichens have been described in sushruta Samhita, charaka Samhita and several Nighantu. Usnic acid active compound from usnea sp. Are good antimicrobial effects against various fungal and bacterial pathogens . Lichens are modulating the cancer associated molecular mechanisms leads to anticancer effects in various cancers .

Industrail Uses : The industrial uses are …….. Brewery and Distillation Preparation of dye Litmus paper Lichen In perfume

1. Brewery and Distillation The countries such as Russia and Siberia used Lobaria pulmonaria in brewing of beer . Cladonia rangiferina produced 176-282cc of alcohol per kg material .

2. Preparation of dye : In Europe the lichen substances are the source of dyes for cotton and wool . Roceella and Ochrolechia are the lichen producing purple and red dyes . The yarn immersed in the mixture of purple and red dye which is dissolved in human urine , ammonia salts in the urine functioned as mordants to make permanent dye .

3. Litmus Paper : It is an acid-base indicator prepared from tinctorial property of lichen secondary metabolite from different lichen like R. tinctoria and Lecanora tartarea . Mixture of coloured compound is called as chromogen , which under combine treatment of ammonia and oxygen produced colour component of litmus .

4. Lichen in Perfume In india,past 800 years a small town of Utter Pradesh called Kannauj famous for perfume production, today also lichen is used in the preparation of a perfume called Hina Attar . The species of Ramalina and Evernia are used for extraction of oil and further used for cosmetic soap . Two combine lichens,Evernia are used for perfume industry because of its sweet and mossy fragrance . In France, Morocco and South eastern Europe countries, these two species are harvested in tons for perfume preparation .

# Lichenometry Lichenometry is a technique used to determine the surfaces age by using size of lichen colonies on the rock surface . Lichenometry is a dating technique useful only 500 years approximately . The Rhizocarpon sp. And Xanthoria sp. Of lichens are most commonly used for study of lichenometry . Study of lichenometry

Pollution tolerance and heavy metal homeostasis by Lichen Lichen secondary metabolites play a role in metal homeostasis and pollution tolerance. Lichens are also used as a bio-indicators . Depends upon environmental conditions,lichens are growing e.g. in clean air, leafy, hairy shruby lichens are growing abundantly . In high pollution environment, lichens are not growing . Various studies showed that the level of lichen secondary metabolites produced by lichen is depends on external environment .

Lichen Substances : Lichen produced variety of secondary metabolites, also called as lichen substances or lichen acid produced extracellularly by mycobient . These compounds are deposited on hyphae within cortex or medulla of thalli in amorphous or crystalline forms . The lichen produced lichen compounds by three important pathways : Shikimic acid pathway Mevalonic acid pathway Acetyl palymalonyl pathway Bioactive Lichen Substances

SYMBIOTIC ASSOCIATIONS OF MYCORRHIZA AND THEIR SIGNIFICANCE Symbiosis is a phenomenon of two or more dissimilar organism live together . There are different forms of the symbiosis observed in nature viz ., Mutualism and Parasitism . Mutualism, both the partners are benefited from each other and parasitism, one of the partners live at the expense of the other .

The term `Mycorrhiza` was first comes from German researcher and inverts from greeks . Mycos meaning fungus and rhiza meaning roots . German botanist, Frank, in 1885 discovered mycorrhizae, as a mutualistic symbiotic beneficial, non-pathogenic association with plant root . Mycorrhizas are located in the 90% of the roots of plants . The most common type arbuscular mycorrhizae is present in 70% of crop plants like Wheat and Rice .

1. Types of Mycorrhizae Mycorrhizae are commonly divided into six types : Ectomycorrhiza Vesicular arbuscular mycorrhiza Ericoid mycorrhiza Orchid mycorrhiza Arbutoid mycorrhiza Monotropoid mycorrhiza These six type of mycorrhizae divided in to the three main classes : Ectomycorrhizae Endomycorrhizae Ectendomycorrhizae Types of Mycorrhizae

Ectomycorrhizae In this type of mycorrhizae, the fungus forms a fungal sheath around the roots and also enters into the roots of the host plants and forming in the outer cortex, an intracellular net of hyphae called hertig net . The ectomycorrhizae found only in 3% of plant species, majority 90% of which are temperate forest trees . This type of association found by the members of Basidiomycota, Ascomycota and Zygomycota . The ectomycorrhizae are easily recognizeable . The fungal sheath gives a swollen and stumpy look .

The whole root, including the apex of the root is often surrounded by the fungal sheath, so there is not direct contact between the young roots and the soil . Thus the sheath insulates the host from the soil and all the minerals from the soil absorbed by the mycorrhizal roots and pass through the sheath . Ectomycorrhizae

While the unaffected roots remain unbranched and short lived, mycorrhizal roots by repeated branching, form a crowded cluster of swollen persist for many more years . The fungus and the roots of host plants grow in an organized way . During the spring season some of the root apices grow out of the hyphal sheath and extend beyond it . After the region of the cell division, the hypae from the inner sheath, penetrate into the root cortical cells and producing network of hyphae called Hertig net . But these hyphae never enter into the cortical cells .

2. Endomycorrhizae The fungi in the endomycorrhizae invade the cells of the root cortex, with a portion lying externally as a loose mass of hyphae in the soil . Endomycorrhizas have been further divided in to three classes :- Arbuscular Ericoid Orchid mycorrhiza

Arbuscular mycorrhizae Arbuscular mycorrhizae are mycorrhizas whose mycelium enters in to the cells of host plant, producing the balloon-like structure called vesicles and tree like structures called arbuscule for exchanging the nutrients . The fungal hyphae do not penetrate into the cell wall but invading the plasma membrane of the cell The arbuscules developed in the cell and established the bridge between the arbuscule hypha and the plasma membrane of cell for transferring the nutrients . This type of plant fungus association is found in a wide range of plant including angiosperm, gymnosperm, and pteridophytes, mosses etc . Arbuscular mycorrhizal fungi recently placed in a new phylum, Glomeromycota , with a presumed origin at least 460 million years ago .

This mycorrhiza formed the two characteristic structures in the root cortex . 1] Arbuscules :- Dichotomously branched and bush like haustoria structure called arbuscule . These are formed shortly after infection, and these are later digested by host cell. Firstly the tips are eroded and then whole arbuscule is degraded and digested . 2] Vesicles :- These are spherical and oval, and thick walled structures formed terminally in the intercellular spaces on in the cortical cells. Vesicles contain fat granules and serve as storage organ .

Ericoid mycorrhizae :- They are formed between ascomycetous fungi and family of the plants Ericaceae and Epacridaceae . The important plant genera showing ericoid mycorrhizae are Calluna , Erica, Rhododendron, and Viccinium . The fungus grows over the lateral root hairs and hyphae penetrate the single layer of the cortical cells and fill them with hyphal coils called peletones . The fungus can occupy 80% of total volume of colonised roots . There are some evidence, the species of calluna and vaccinium have very high tolerance to the some stresses .

Orchid Mycorrhiza :- These mycorrhizae formed between roots of plants belongs to family Orchidaceae and fungal partners belong to Basidiomycota and rarely in Ascomycota . These mycorrhizae lack external sheath, but hyphae penetrate the soil around the infected roots . During the symbiosis, the fungus develops structures called pelotons within the root cortex of the orchid . Peloton has short life, it degenerates and digested by orchid cells . Host plant growth and uptake of nutrients are enhanced in mycorrhizal orchids .

3. Ectendomycorrhizae Ectendomycorrhizae is a association of both the type ecto and endomycorrhizal to the roots . There are two type of Ectendomycorrhizae :- Arbutoid mycorrhiza Monotropoid mycorrhizae

1. Arbutoid mycorrhizae : This type of association is formed between the members of the plants families Ericaceae and pyrolaceae , of the order Ericales and the fungi belonging with basidiomycota , that are mainly species that form ectomycorrhizae with the forest trees . There is well developed fungal sheath and hertig net in between the outer cells . But it differs from ectomycorrhiza, where some of the hyphae penetrate into the root cells and forming ectendomycorrhizal association .

2. Monotropoid mycorrhizae : One of the most important examples of ectendomycorrhizae , is the mycorrhizal association in the Monotropa indica, the Indian pipe which grows on forest grounds under Fagas , Pinus, Carpinus and other trees . Families belong to subfamily of Monotropoideae of the Ericaceae some genera of Orchidaceae showed this type of association . This is a non-mutualistic, parasitic type of mycorrhizal symbiosis .

In Monotropa , the fungus forms an external hyphal sheath and the hertig net, one cell deep into the root cortex . It also formed invaginated structures called hyphal pegs, inside the cortex cell . This look like transfer cell formed in a variety of plant species, when there is need rapid short distance transport of minerals . Bjorkaman , by using tracer carbon technique, proved that the mycorrhizal fungus receives nutrients from the trees and transfer the mycorrhizae .

Significance of mycorrhizae Mycorrhizal association with plants established network of hyphae within soil and hyphae access water and nutrients from the soil and transport them to the plants . Plants increase absorption area resulting in to increase the plant root biomass . Mycorrhizal hyphae absorb the nutrients especially Nitrogen, Phosphate, Potassium and micronutrients and delivered to plant roots. This helps the plant to better growth performance .

Mycorrhizal fungi increased the survival and establishment at seedling and transplanting . Mycorrrhizal fungi increased flowering and fruiting . Mycorrhizal fungi improved the tolerance to various biotic and abiotic stresses . Mycorrhizal fungi maintain soil quality and water holding capacity .

7. Mycorrhizal fungi reduced the use of fertilizers . Mycorrhizal fungi improved crop quality and yield . Mycorrhizal fungi reduced the growth of pathogen due to barrier effect of hyphae and competitiveness .

Referance :- cryptogamic botany book . Braincart.com Mycorrhiza.com Lichen.in http://www.davidmoore.org.uk/

Symbiotic association of lichen and micorrhiza and their significance.pptx

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