Caractérisation des produits naturels odorants retrouvés dans les lichens de genre usnea et bryoria de la région du mont Apica, Québec /

Lessard, Martine.

January 1990

Mémoire (M.Sc.)--Université du Québec à Chicoutimi, 1990. / Document électronique également accessible en format PDF. CaQCU

Remise en production des pessières à lichens de la forêt boréale commerciale : nutrition et croissance de plants d'épinette noire trois ans après traitements de préparation de terrain /

Girard, François,

January 2004

Thèse (N. Ress. Renouv.) -- Université du Québec à Chicoutimi, 2004. / Bibliogr.: f. [46]-54. Document électronique également accessible en format PDF. CaQCU

Monitoring changes in the sulphur isotopic composition and concentration of transplanted pendulous epiphytic lichens /

Wiseman, Renée Denise,

January 1999

Thesis (M.Sc.)--Memorial University of Newfoundland, 1999. / Restricted until November 2000. Bibliography: leaves 140-148.

Abondance et diversité des lichens au Nunavik en contexte de changements climatiques

Chagnon, Catherine

02 February 2024

Les lichens constituent une composante importante de la biodiversité en milieu arctique et subarctique et y jouent plusieurs rôles écologiques. En raison de leur métabolisme poïkilohydrique et de leur croissance lente, les lichens apparaissent toutefois comme étant vulnérables dans le présent contexte de changement climatique. Afin de mieux comprendre les conséquences des changements climatiques sur les lichens, nous avons identifié les patrons et déterminants de l’abondance et de la diversité des lichens le long d’un gradient latitudinal au Nunavik et évalué l’impact du couvert arbustif sur les communautés lichéniques. Nos résultats révèlent que les types de formation végétale, qui influencent les interactions compétitives entre les espèces, et la latitude, qui agit comme indicateur du climat régional, sont les principaux déterminants de l’abondance, de la diversité et de la composition des communautés lichéniques à l’échelle du gradient. À l’échelle locale, le couvert arbustif et graminoïde réduit l’abondance et la diversité, ce qui témoigne de la faible compétitivité des lichens. La comparaison des communautés lichéniques en milieu ouvert et sous arbuste révèle un déclin du couvert lichénique de plus de 50% sous la canopée. De plus, les arbustes engendrent une réduction de la diversité lichénique qui augmente avec le temps, et modifient la composition des communautés en excluant les espèces nécessitant les conditions environnementales spécifiques aux milieux ouverts. En combinant deux approches distinctes, nous avons démontré l’importance de l’impact de la végétation vasculaire sur les lichens. Nos résultats laissent présager une restructuration majeure des communautés lichéniques, alors que les changements climatiques favorisent un déplacement des zones de végétation vers le nord ainsi qu’une expansion croissante des arbustes. En permettant une meilleure compréhension des facteurs environnementaux influençant les lichens, ce projet s’inscrit dans un effort visant à comprendre la dynamique des écosystèmes nordiques, en vue de mieux prédire les changements de végétation futurs. / Lichens are a key component of arctic and subarctic ecosystems, as they constitute an important part of biodiversity and are involved in many ecological processes. However, lichens appear vulnerable in the present context of climate change because of their poikilohydric metabolism and their slow growth rate. In order to understand the implications of climate change on lichens, we identified patterns and determinants of lichen abundance and diversity along a latitudinal gradient in Nunavik and evaluated the impact of shrubs on lichen communities. Our results reveal that vegetation types, which influence competitive interactions, and latitude, which is used as a proxy of regional climate, are the main factors involved in driving lichen abundance, diversity and community composition at the gradient scale. At the local scale, shrub and graminoid cover induces a lower lichen cover and diversity, highlighting the low competitive abilities of lichens. When comparing lichen communities in open area and under shrubs, we observe a decline of lichen cover of more than 50% under shrub canopy. Shrubs also induce a decline of lichen diversity that seems to intensify with time, and modify community composition by excluding species that require the open environment conditions. By combining two distinct methods, we highlighted the predominance of vascular plants in profiling lichen communities. As climate change is promoting further shrub expansion and a northward shift of vegetation zones, a major restructuration of lichen communities is likely to be observed in the next decades. By identifying environmental drivers of lichen communities at different spatial scales, this project takes part in a global effort towards a better understanding of northern ecosystems dynamics that aims to improve our ability to predict future changes in vegetation.

Lichens

Lichens -- Facteurs climatiques

Diversité végétale

The carbohydrate movement between the symbionts of lichens

Hill, David J.

January 1970

No description available.

580

Lichens ; Carbohydrates ; Symbiosis

Some aspects of the carbohydrate metabolism of lichens

Drew, Edward A.

January 1966

No description available.

580

Lichens--Metabolism

Relationships between surface crusts and erosion in the Tabernas Badlands, Almeria, S.E. Spain

Downward, Kenneth

January 2000

No description available.

551

Lichens; Erosion

Studies in the biology and physiology of lichens with special reference to Xanthoria parietina (L.) Th. Fr

Richardson, David H. S.

January 1967

The work described in this thesis had several main objects which are summarised as follows: • To study the carbohydrate movement from alga to fungus during photosynthesis in the lichen Xanthoria aureola (Ach.) Erichs. (since this work commenced the variety of Xanthoria parietina used in the experiments has been recognised as a separate species and is referred to by this new name). Previous research on this aspect of the physiology of lichens has been largely limited to Peltigera polydactyla. This lichen contains the blue-green alga Nostoc which produces glucose during photosynthesis that passes to the fungus where it is rapidly converted into mannitol. Xanthoria aureola was selected for the experiments in this investigation because it contains a green alga, Trebouxia, which is the commonest algal symbiont found in temperate lichens. • To study the carbohydrate movement between the symbionts of other lichens to determine the extent to which the pattern found in Peltigera polydactyla and Xanthoria aureola occurred in other species. • To study some general aspects of the carbohydrate metabolism of Xanthoria aureola such as the changes which occur during starvation, the uptake of carbohydrates and the variation in sugar alcohol content at various times of the year. • To study a number of ecological and taxonomic aspects of the biology of Xanthoria parietina sensu lato by transplanting thalli of different varieties between inland and sea shore habitats. 1. Carbohydrate movement from alga to fungus in Xanthoria aureola. a. Products of photosynthesis in the intact thallus. Before investigating the role of the alga and fungus in the symbiosis, it was necessary to study photosynthesis in the complete thallus. When samples of this lichen were floated in the light on aqueous ¹⁴C sodium bicarbonate solutions, ¹⁴C was at first incorporated in substantial amounts into the sugar alcohol ribitol which had not previously been reported in lichens. After several hours ¹⁴C also began to accumulate in mannitol and a small amount was also found in arabitol. It was noted that less than 10% of the fixed ¹⁴C occurred in the ethanol-insoluble fraction over a 24 hour period, and in experiments where the redistribution of a pulse of ¹⁴C-ribitol was studied, it was found that this became largely converted into ¹⁴C-mannitol and ¹⁴C-arabitol over a 48 hour period. b. Studies on the isolated components of the lichen. i. The alga. The alga of Xanthoria aureola, which is a species of Trebouxia, was successfully isolated and maintained in pure culture. Since there was the possibility that the behaviour of the alga in pure culture is different from that in the lichen, a technique was developed for isolating quantities of the alga direct from the thallus. This was done by gently homogenising thallus lobes and subjecting the homogenate to a regime of low speed differential centrifugation so as to produce a moderately pure suspension of living intact algal cells. It was demonstrated that both the cultured and directly isolated alga produced ¹⁴C-ribitol and ¹⁴C-sucrose within the cells during photosynthesis on ¹⁴C-sodium bicarbonate solution. However when the alga had been in pure culture for some time, less ¹⁴C was incorporated into carbohydrates, especially ribitol, than when the alga was directly isolated from the thallus. Both kinds of algal preparation were found to release carbohydrate, mainly in the form of ribitol, into the medium. However they did this only slowly, and the cultured alga appeared to release substances less readily than the directly isolated alga. <strong>ii. The fungus</strong>. This was also isolated into pure culture from fungal ascospores and was subsequently grown in liquid culture. The lichen fungus of Xanthoria aureola was found to grow on a range of sugars and sugar alcohols. It was able to convert ¹⁴C-glucose rapidly into ¹⁴C-mannitol. Under certain cultural conditions it was found also to contain arabitol, confirming that this is a fungal product. c. Attempts to inhibit the movement of carbohydrates between the symbionts If ¹²C-pentitols were present in the medium during photosynthesis by Xanthoria aureola on ¹⁴C-sodium bicarbonate solutions, then ¹⁴C-ribitol appeared in the medium and little ¹⁴C-mannitol was formed within the thallus. This was explained in terms of the ¹⁴C-ribitol produced by the alga being unable to compete with the high concentration (l or 2%) of non radioactive pentitols at the fungal uptake sites, so that the entry of ¹⁴C-ribitol into fungus was prevented and it therefore diffused out into the medium. It was only possible to obtain this inhibition with pentitols. Other sugars or sugar alcohols were unable to prevent carbohydrate movement, suggesting that the fungal uptake mechanisms had a high specificity for pentitols. These results suggested that carbon moved between the symbionts principally in the form of ribitol. d. The rate of movement of carbohydrate between the symbionts In Peltigera polydactyla it had been shown by earlier workers that ¹⁴C fixed by the alga moves to the fungal medulla within thirty minutes from the start of photosynthesis on ¹⁴C-sodium bicarbonate. In the type of inhibition experiment described above, at least 25% of the total fixed ¹⁴C was released from samples of Peltigera into the medium within three hours if it contained ¹²C-glucose. It was therefore concluded that movement of carbon between the symbionts was rapid. In analogous inhibition experiments carried out here using Xanthoria aureola, it took as long as twenty four hours for a similar proportion of the total fixed ¹⁴C to be released into the medium when it contained ¹²C-ribitol, and this suggested that the movement of carbohydrates between the symbionts in this species was much slower. Further experiments were devised in which the rate of transfer of a pulse of ¹⁴C from alga to fungus was estimated both in Peltigera polydactyla and Xanthoria aureola under identical conditions. These confirmed that movement of carbohydrate was much slower in the latter lichen. <strong>2. Studies of carbohydrate movement in other lichens</strong> a. Lichens containing blue-green algae Three lichens were examined, two contained Nostoc (Sticta fuliginosa, Lobaria scrobiculata) and the third, Rivularia (Lichina pygmaea). They all showed similarities with Peltigera polydactyla in that glucose appeared to move between the symbionts and this was converted into mannitol by the fungal part of the thallus. There was evidence that the movement of carbohydrate from alga to fungus was rapid in the species containing Nostoc but slower in Lichina pygmaea. b. Other lichens containing green algae Lichens containing four genera of green algae (including Trebouxia) were studied and it was remarkable that in each case ¹⁴C initially accumulated in sugar alcohols, during photosynthesis. The compounds ribitol, erythritol and sorbitol appeared to be the respective photosynthetic products of the algae Trebouxia (and Coccomyxa), Trentepohlia and Myrmecia.

579.7

Lichens ; Physiology

Factors limiting the distribution of the sensitive lichen Usnea longissima in the Oregon Coast Range : habitat or dispersal?

Keon, Dylan B.

01 May 2001

Graduation date: 2001

Lichens -- Dispersal -- Oregon

Lichens -- Habitat -- Oregon

Lichens -- Dispersal -- Coast Ranges

Lichens -- Habitat -- Coast Ranges

Epiphytic lichen diversity and its dependence on chemical site factors in differently elevated dieback-affected spruce stands of the Harz Mountains /

Hesse, Volker.

January 2002

Thesis--Albrecht-von-Haller-Institute for plant sciences--University of Göttingen, 2001. / Bibliogr. p. 107-136.

Lichens épiphytes Sols