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6. Growth of epiphytic old forest lichens across climatic and successional gradients

Author

Gauslaa, Y., Palmqvist, K., Solhaug, K.A., Holien, H., Hilmo, O., Nybakken, L., Myhre, L.C., and Ohlson, M

Subjects
Forest ecology -- Influence -- Case studies -- Comparative analysis -- Usage, Lichens -- Growth -- Comparative analysis -- Case studies -- Usage, Plant canopies -- Usage -- Case studies -- Growth -- Comparative analysis, Growth (Plants) -- Case studies -- Usage -- Growth -- Comparative analysis, Earth sciences, Company growth, Influence, Usage, Growth, Case studies, Comparative analysis
Abstract

Abstract: This paper aims to assess the influence of canopy cover on lichen growth in boreal forests along a regional forest gradient. Biomass and area gain, and some acclimation traits, [...]

Published
2007

8. Externally held water : a key factor for hair lichens in boreal forest canopies

Author

Esseen, Per-Anders, Rönnqvist, Marie, Gauslaa, Y., Coxson, D. S., Esseen, Per-Anders, Rönnqvist, Marie, Gauslaa, Y., and Coxson, D. S.

Abstract

Lichens hold water inside (internal pool) and outside their body (external pool). Yet, external pool size is not known in hair lichens dominating boreal forest canopies. Here we quantify morphological traits and internal/external water in two widespread Bryoria species along Picea abies canopy-height gradients: Bryoria fuscescens at 5-20 m and Bryoria capillaris at 15-20 m. Dry mass and specific thallus mass (STM) of intact B. fuscescens increased with height, while STM of individual branches did not. Maximum water holding capacity (mg H2O cm-2) increased with height, but did not differ between the species. Bryoria had much larger external (79-84% of total) than internal water pools, trapping water by dense clusters of thin, overlapping branches. They thus increase water storage in boreal forest canopies and influence hydrology. High external water storage extends hydration periods and improves lichen performance in upper canopies, and thereby contributes to the success of these hair lichens.

Published
2017
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9. Growth of epiphytic old forest lichens across climatic and successional gradients

Author

Gauslaa , Y., Palmqvist, Kristin, Solhaug, K. A., Holien , H., Hilmo, O., Nybakken, L., Myhre, L., Ohlson, M., Gauslaa , Y., Palmqvist, Kristin, Solhaug, K. A., Holien , H., Hilmo, O., Nybakken, L., Myhre, L., and Ohlson, M.

Abstract

This paper aims to assess the influence of canopy cover on lichen growth in boreal forests along a regional forest gradient. Biomass and area gain, and some acclimation traits, were assessed in the old-forest lichens Lobaria pulmonaria (L.) Hoffm., Pseudocyphellaria crocata (L.) Vain., and Usnea longissima Ach. transplanted 110days in three successional Norway spruce (Picea abies (L.) Karst.) forest stands (clearcut, young, and old forest) repeated along a rainfall gradient (continental, suboceanic, and Atlantic zones) in Scandinavia. Lichen growth peaked in Atlantic rainforests with mean dry matter (DM) gain up to 36%-38%. The alectorioid lichen U. longissima showed the widest range of growth responses and no signs of chlorophyll degradation. Its highest DM gain consistently occurred in clearcuts, whereas the DM gain was close to zero in the shadiest young forest. The two foliose lichens L. pulmonaria and P. crocata exhibited maximal growth rates in old forests, but apparently growth was limited by low light even in old forests. Their DM gain was reduced in the most sun-exposed clearcuts due to chlorophyll degradation and was relatively high under closed young canopies, suggesting a better adaptation to shade. The lichen responses show that a high frequency and dominance of young and dense fast-growing forest stands at a landscape level are not compatible with large populations of these old-forest lichens and that a lack of lichens under an industrial forestry regime may not necessarily be determined by low dispersal efficiency only. Cet article a pour but d'évaluer l'influence du couvert de la canopée sur la croissance des lichens dans les forêts boréales le long d'un gradient forestier régional. Le gain en biomasse et en superficie ainsi que certains caractères d'acclimatation ont été évalués chez les lichens des forêts âgées, Lobaria pulmonaria (L.) Hoffm., Pseudocyphellaria crocata (L.) Vain. et Usnea longissima Ach., qui ont été transplantés pendant 110 jours

Published
2007
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17. Difference in secondary compounds and chlorophylls between fibrils and main stems in the lichen Usnea longissima suggest different functional roles.

Author

Nybakken, L. and Gauslaa, Y.

Subjects
*EPIPHYTIC lichens, *CRYPTOGAMS, *LICHENS, *EPIPHYTES, *PLANT stems
Abstract

The article talks about the difference between fibrils and main stems in the epiphytic macrolichen called Usnea longissima in terms of the secondary compounds and chlorophylls. The author said that Usnea longissima often exceed one meter in length. He also said that it belongs to the subgenus Dolichousnea. It was also reported that the fibrils of the lichens are photosynthetic organs.

Published
2007
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18. Development strategies of Koenigia islandica, a high-arctic annual plant

Author

Heide, O. M. and Gauslaa, Y.

Subjects
*ECOLOGY, *GERMINATION, *PLANT development
Abstract

Seed germination, growth and flowering of the arctic-alpine annual Koenigia islandica L. were studied in controlled environment. Intact (unabraded) seeds germinated poorely at temperatures up to 18 deg. C,with an optimum at 24 deg. C (89 % in 10 d). Scarified seeds germinated rapidly, and reached 100 % germination in 3 d at 21 deg. C, butno more than 40 % germination occurred at 9 and 12 deg. C. The seeds had no light requirement for germination, nor did fluctuating temperatures improve germination. Dry matter production was optimal at 12deg. C in both short day (SD) and long day (LD) conditions, but was markedly higher in LD than in SD at identical fluences at all temperatures except 21 deg. C where the plants showed symptoms of severe heat stress. The temperature compensation point for net productivity was estimated to 24 deg. C, and negative carbon balance at higher temperatures might be an important physiological mechanism limiting the distribution of K. islandica in Scandinavia. Flowering was extremely rapid and independent of daylength, even in a high-arctic population from 79 deg. N. In full summer daylight anthesis was reached 24 d after germination and seeds ripened after 36 d at 15 deg. C. Days to anthesis varied little across the temperature range from 6 to 21 deg. C, giving a linear decrease in the heat-sum requirement for the attainment of flowering with decreasing temperature. It is concluded that conservative seed germination strategy, tininess and rapid development, low temperature optima for growth and reproduction, and daylength indifference of flowering are important adaptations for success of an annual plant in high-arctic and high-alpine environments. Daylength neutrality has facilitated the wide latitudinal distribution of K. islandica, including the penetration of the species to the southern hemisphere. [ABSTRACT FROM AUTHOR]

Published
1999
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21. THELOBARION, AN EPIPHYTIC COMMUNITY OF ANCIENT FORESTS THREATENED BY ACID RAIN

Author

GAUSLAA, Y.

Abstract

Lobaria pulmonariaand other members of theLobarionwere found to inhabit drainage channels below old and large wounds on the trunks of various deciduous trees in stands of long ecological continuity in a forest reserve dominated byPicea abiesin southeastern Norway. Such channels were richer in minerals and had a higher pH than normal bark, which was covered with more acidophytic epiphytic communities, mainly thePseudevernion. Chemical microhabitat differentiation was most clear in edaphically poor sites. The restriction of a previously ubiquitousLobarionto mineral-rich microsites on stems is probably an effect of acid rain. Since acidification seems to make theLobarionmore dependent upon old and damaged stems, modern forestry probably aggravates the damage caused by acid rain.

Published
1995
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22. High-light damage in air-dry thalli of the old forest lichen -interactions of irradiance, exposure duration and high temperature.

Author

Gauslaa, Y and Solhaug, KA

Subjects
*LICHENS, *PHYSIOLOGICAL effects of heat
Abstract

Studies high-light damage in air-dry thalli of the old forest lichen Lobaria pulmonaria. Interactions of irradiance, exposure duration and high temperature; Susceptibility to light of hydrated thalli of lichens; Effects of desiccation on the lichen.

Published
1999
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23. Fine-scale distribution of the epiphytic lichen Usnea longissima on two even-aged neighbouring Picea abies trees

Author

Ohlson, M., Rolstad, J., and Gauslaa, Y.

Subjects
LICHENS, FOREST dynamics, BOTANY, SPATIAL ecology
Abstract

Two neighbouring even-aged 130-yr old Picea abies trees in a homogeneous stand can differ substantially with respect to their epiphytic vegetation. Sampled branches from the canopy of one tree harboured 781specimens of the old forest lichen Usnea longissima of which only 50could be seen from the ground, whereas no U. longissima were found on its nearest neighbour. Usnea longissima was most abundant on branchtips in lower parts of the canopy on branch segments having the highest biomass of other alectorioid species. Trees with and without U. longissima showed a different pattern in their mineral composition, suggesting that a tree-specific difference in nutritional status might contribute to explain the patchy distribution of this lichen within seemingly homogeneous stands. [ABSTRACT FROM AUTHOR]

Published
1998

24. Unraveling the interplay between phylogeny and chemical niches in epiphytic macrolichens.

Author

Gauslaa Y, Hollinger J, Goward T, and Asplund J

Subjects
British Columbia, Ecosystem, Forests, Picea, Lichens, Phylogeny
Abstract

This study aims to elucidate the connection between the phylogeny of epiphytic macrolichens and their chemical niches. We analyzed published floristic and environmental data from 90 canopies of Picea glauca x engelmannii across various forest settings in British Columbia. To explore the concordance between a principal coordinates analysis of the cladistic distance matrix and a global non-metric multidimensional scaling of the ecological distance matrix, we used Procrustean randomization tests. The findings uncover a robust association between large-scale macrolichen phylogeny and canopy throughfall chemistry. The high calcium-scores of the studied species effectively distinguished members of the Peltigerales from those of the Lecanorales, although parameters linked with Ca such as Mn, Mg, K, bark-, and soil-pH, may contribute to the niche partitioning along the oligotrophic-mesotrophic gradient. The substantial large-scale phylogenetic variation in the macrolichens' Ca-scores is consistent with an ancient adaptation to specialized chemical environments. Conversely, the minor variation in Ca-scores within families and genera likely stems from more recent adaptation. This study highlights crucial functional and chemical differences between members of the Lecanorales and Peltigerales. The deep phylogenetic connection to the chemical environment underscores the value of lichens as transferable bioindicators for the chemical environment and emphasizes the importance of elucidating the intricate interplay between chemical factors and lichen evolution., Competing Interests: Declarations. Conflict of interest: The authors declare that they have no conflict of interest. Ethical approval: Ethics approval was not required for this non-destructive study. Consent to participate: Not applicable. Consent for publication: Not applicable., (© 2024. The Author(s).)

Published
2024
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25. Non-photochemical quenching may contribute to the dominance of the pale mat-forming lichen Cladonia stellaris over the sympatric melanic Cetraria islandica.

Author

Solhaug KA, Eiterjord G, Løken MH, and Gauslaa Y

Subjects
Ecosystem, Lichens physiology, Parmeliaceae, Ascomycota
Abstract

The mat-forming fruticose lichens Cladonia stellaris and Cetraria islandica frequently co-occur on soils in sun-exposed boreal, subarctic, and alpine ecosystems. While the dominant reindeer lichen Cladonia lacks a cortex but produces the light-reflecting pale pigment usnic acid on its surface, the common but patchier Cetraria has a firm cortex sealed by the light-absorbing pigment melanin. By measuring reflectance spectra, high-light tolerance, photosynthetic responses, and chlorophyll fluorescence in sympatric populations of these lichens differing in fungal pigments, we aimed to study how they cope with high light while hydrated. Specimens of the two species tolerated high light equally well but with different protective mechanisms. The mycobiont of the melanic species efficiently absorbed excess light, consistent with a lower need for its photobiont to protect itself by non-photochemical quenching (NPQ). By contrast, usnic acid screened light at 450-700 nm by reflectance and absorbed shorter wavelengths. The ecorticate usnic species with less efficient fungal light screening exhibited a consistently lower light compensation point and higher CO 2 uptake rates than the melanic lichen. In both species, steady state NPQ rapidly increased at increasing light with no signs of light saturation. To compensate for less internal shading causing light fluctuations with a larger amplitude, the usnic lichen photobiont adjusted to changing light by faster induction and faster relaxation of NPQ rapidly transforming excess excitation energy to less damaging heat. The high and flexible NPQ tracking fluctuations in solar radiation probably contributes to the strong dominance of the usnic mat-forming Cladonia in open lichen-dominated heaths., (© 2024. The Author(s).)

Published
2024
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26. The lichen cushion: A functional perspective of color and size of a dominant growth form on glacier forelands.

Author

Phinney NH, Asplund J, and Gauslaa Y

Subjects
Ecosystem, Ice Cover, Sunlight, Water, Lichens
Abstract

Mat-forming lichens dominating high-latitudinal habitats vary in color and geometry. Widespread species are light greenish yellow (usnic acid) and reflect solar radiation, whereas melanic species absorbing most solar wavelengths are spatially more restricted. Color thereby influences lichens' energy budget and thus their hydration and photosynthetically active periods. By using well-defined cushions from early successional stages on glacier forelands - three melanic (m) and three usnic (u) mat-forming lichens with hair-like branches (Alectoria ochroleuca (u) , Gowardia nigricans (m) ), hollow terete branches (Cladonia uncialis (u) , Cetraria muricata (m) ), and flat branches (Flavocetraria nivalis (u) , Cetraria islandica (m) ) - we quantified hydration traits and analyzed how color and cushion size affect water loss rate (WLR) and duration of active periods. Main findings: 1) WLR declined with cushion size and was highest in melanic lichens. 2) Active periods were longer for usnic than for melanic lichens and increased with size in all groups. 3) Size, color, and taxon nested in color significantly influenced WLR and duration of active periods in linear mixed models. 4) Hair lichen cushions had shorter active periods than growth forms with terete or flat branches due to their more open canopy architecture and lower water holding capacity (WHC). 5) WHC measured for isolated branches highly underestimated WHC for intact cushions., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2022
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27. Apparent electron transport rate - a non-invasive proxy of photosynthetic CO 2 uptake in lichens.

Author

Solhaug KA, Asplund J, and Gauslaa Y

Subjects
Ascomycota metabolism, Chlorophyll, Light, Parmeliaceae metabolism, Photosynthesis physiology, Carbon Dioxide metabolism, Electron Transport, Lichens metabolism
Abstract

Main Conclusion: During desiccation, both apparent electron transport rate (ETR app ) and photosynthetic CO 2 uptake peak when external water has evaporated. External water, causing suprasaturation, weakens the strong correlation between ETR app and CO 2 uptake. Lichens are poikilohydric organisms passively regulated by ambient conditions. In theory, apparent electron transport rate (ETR app ), estimated by photosystem II yield measured in light (Φ PSII ), is a proxy of photosynthetic CO 2 uptake. Hydration level, however, is a complicating factor, particularly during suprasaturation that strongly reduces CO 2 diffusion. Here, the cephalolichen Lobaria pulmonaria and two chlorolichens Parmelia sulcata and Xanthoria aureola were excessively hydrated before photosynthetic CO 2 uptake and Φ PSII using imaging fluorescence tools were simultaneously measured while drying at 200 µmol photons m -2  s -1 . CO 2 uptake peaked when hydration had declined to a level equivalent to their respective internal water holding capacity (WHC internal ) i.e., the water per thallus area after blotting external water. CO 2 uptake and ETR app in all species were highly correlated at hydration levels below WHC internal , but weaker at higher hydration (chlorolichens) or absent (cephalolichen). Yet, at a specimen level for the two chlorolichens, the correlation was strong during suprasaturation. The CO 2 uptake-ETR app relationship did not differ between measured species, but may vary between other lichens because the slope depends on cortical transmittance and fraction of electrons not used for CO 2 uptake. For new lichen species, calibration of ETR app against CO 2 uptake is therefore necessary. At intrathalline scales, Φ PSII during drying initially increased along thallus margins before reaching maximum values in central portions when hydration approached WHC internal . WHC internal represents the optimal hydration level for lichen photosynthesis. In conclusion, ETR app is an easily measured and reliable proxy of CO 2 uptake in thalli without external water but overestimates photosynthesis during suprasaturation.

Published
2021
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28. Functional trade-off of hydration strategies in old forest epiphytic cephalolichens.

Author

Ås Hovind AB, Phinney NH, and Gauslaa Y

Subjects
Ascomycota, Forests, Lichens physiology, Water physiology
Abstract

Although water is essential for photosynthetic activation in lichens, rates of vapor uptake and activation in humid air, which likely influence their niche preferences and distribution ranges, are insufficiently known. This study simultaneously quantifies rehydration kinetics and PSII reactivation in sympatric, yet morphologically and functionally distinct cephalolichens (Lobaria amplissima, Lobaria pulmonaria, Lobaria virens). High-temporal resolution monitoring of rehydrating thalli by automatic weighing combined with chlorophyll fluorescence imaging of maximal PSII efficiency (F V /F M ) was applied to determine species-specific rates of vapor uptake and photosynthetic activation. The thin and loosely attached growth form of L. pulmonaria rehydrates and reactivates faster in humid air than the thick L. amplissima, with L. virens in between. This flexible hydration strategy is consistent with L. pulmonaria's wide geographical distribution stretching from rainforests to continental forests. By contrast, the thick and resupinate L. amplissima reactivates slowly in humid air but stores much water when provided in abundance. This prolongs active periods after rain, which could represent an advantage where abundant rain and stem flow alternates with long-lasting drying. Understanding links between morphological traits and functional responses, and their ecological implications for species at risk, is crucial to conservation planning and for modelling populations under various climate scenarios., (Copyright © 2020 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2020
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29. Photobiont-dependent humidity threshold for chlorolichen photosystem II activation.

Author

Phinney NH, Solhaug KA, and Gauslaa Y

Subjects
Chlorophyll metabolism, Humidity, Optical Imaging, Symbiosis, Lichens metabolism, Photosystem II Protein Complex metabolism
Abstract

Main Conclusion: Photobiont type influences the relative humidity threshold at which photosystem II activates in green algal lichens. Water vapor uptake alone can activate photosynthesis in lichens with green algal photobionts. However, the minimum relative humidity needed for activation is insufficiently known. The objective of this study was to quantify the humidity threshold for photosystem II (PSII) activation in a range of chlorolichen species associated with photobionts from Trebouxiaceae, Coccomyxaceae and Trentepohliaceae. These lichens exhibit distribution, habitat and substrate patterns that are likely coupled to their efficiency in utilizing water vapor at lower levels of relative humidity (RH) for photosynthesis. Using chlorophyll fluorescence imaging during water uptake from humid air of 25 species of chlorolichens representing the above photobiont groups, we monitored PSII activation within controlled chambers with constant RH at five levels ranging from 75.6 to 95.4%. The results demonstrate clear photobiont-specific activation patterns: the trentepohlioid lichens activated PSII at significantly lower RH (75.6%) than trebouxioid (81.7%) and coccomyxoid (92.0%) lichens. These responses are consistent with a preference for warm and sheltered habitats for trentepohlioid lichens, with cool and moist habitats for the coccomyxoid lichens, and with a more widespread occurrence of the trebouxioid lichens. Within each photobiont group, lichen species exposed to marine aerosols in their source habitats seemed to be activated at lower RH than lichens sampled from inland sites. High osmolyte concentration may therefore play a role in lowering a photobiont's activation threshold. We conclude that photobiont type influences water vapor-driven photosynthetic activation of lichens, thereby shaping the ecological niches in which they occur.

Published
2019
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30. Why chartreuse? The pigment vulpinic acid screens blue light in the lichen Letharia vulpina.

Author

Phinney NH, Gauslaa Y, and Solhaug KA

Subjects
Carbon Dioxide metabolism, Chlorophyll metabolism, Chlorophyll radiation effects, Color, Furans isolation & purification, Furans radiation effects, Light, Parmeliaceae radiation effects, Phenylacetates isolation & purification, Phenylacetates radiation effects, Furans metabolism, Parmeliaceae metabolism, Phenylacetates metabolism
Abstract

Main Conclusion: Chlorophyll fluorescence, infrared gas exchange and photoinhibition data consistently show that vulpinic acid in L. vulpina functions as a strong blue light screening compound. The cortical lichen compounds, parietin, atranorin, usnic acid and melanins are known to screen photosynthetically active radiation (PAR), thereby protecting the underlying photobionts. The role of the toxic UV-/blue light-absorbing vulpinic acid in lichen cortices is poorly documented. By comparing controls with acetone-rinsed Letharia vulpina thalli (75% reduced vulpinic acid concentration), we aimed to test PAR screening by vulpinic acid. We exposed such thalli to blue, green and red irradiance, respectively, and recorded light quality-specific light saturation curves of CO 2 uptake, quantum yields of CO 2 uptake (QY CO2 ) and effective quantum yields of PSII (Φ PSII ). We also quantified light quality-dependent photoinhibition after 4-h exposure to 400 µmol photons m -2  s -1 . In controls, the greatest high light-induced reductions in CO 2 uptake and Φ PSII , as well as the strongest photoinhibition [lowered maximal quantum yield of PSII (F v /F m )], occurred in red light, followed by green, and was low in blue light. Removal of vulpinic acid significantly exacerbated photoinhibition, reduced Φ PSII , and increased QY CO2 in blue light. By contrast, acetone rinsing had no or weak effects in green and red lights. Comparing control with acetone-rinsed thalli, blue light screening was estimated at 69% using Φ PSII data and 49% using QY CO2 . To compensate for the 25% residual vulpinic acid left after rinsing, we repeated the screening estimation by comparing responses in blue and red lights. This resulted in 88% screening using Φ PSII data and 77% using QY CO2 . The consistent responses in all photosynthetic parameters support the hypothesis that vulpinic acid functions as a blue light screen in L. vulpina.

Published
2019
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31. Reprint of Efficient fungal UV-screening provides a remarkably high UV-B tolerance of photosystem II in lichen photobionts.

Author

Váczi P, Gauslaa Y, and Solhaug KA

Subjects
Fluorometry, Symbiosis, Adaptation, Physiological radiation effects, Ascomycota physiology, Lichens radiation effects, Photosystem II Protein Complex metabolism, Ultraviolet Rays
Abstract

Lichen photobionts in situ have an extremely UV-B tolerant photosystem II efficiency (Fv/Fm). We have quantified the UV-B-screening offered by the mycobiont and the photobiont separately. The foliose lichens Nephroma arcticum and Umbilicaria spodochroa with 1: intact or 2: removed cortices were exposed to 0.7 Wm -2 UV-B BE for 4 h. Intact thalli experienced no reduction in Fv/Fm, whereas cortex removal lowered Fv/Fm in exposed photobiont layers by 22% for U. spodochroa and by 14% for N. arcticum. We also gave this UV-B dose to algal cultures of Coccomyxa and Trebouxia, the photobiont genera of N. arcticum and U. spodochroa, respectively. UV-B caused a 56% reduction in Fv/Fm for Coccomyxa, and as much as 98% in Trebouxia. The fluorescence excitation ratio (FER) technique comparing the fluorescence from UV-B or UV-A-excitation light with blue green excitation light using a Xe-PAM fluorometer showed that these photobiont genera did not screen any UV-B or UV-A The FER technique with a Multiplex fluorometer estimated the UV-A screening of isolated algae to be 13-16%, whereas intact lichens screened 92-95% of the UV-A. In conclusion, the cortex of N. arcticum and U. spodochroa transmitted no UV-B and little UV-A to the photobiont layer beneath. Thereby, the upper lichen cortex forms an efficient fungal solar radiation screen providing a high UV-B tolerance for studied photobionts in situ. By contrast, isolated photobionts have no UV-B screening and thus depend on their fungal partners in nature., (Copyright © 2018 Elsevier Masson SAS. All rights reserved.)

Published
2019
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32. Efficient fungal UV-screening provides a remarkably high UV-B tolerance of photosystem II in lichen photobionts.

Author

Váczi P, Gauslaa Y, and Solhaug KA

Subjects
Fluorometry, Lichens radiation effects, Symbiosis, Adaptation, Physiological radiation effects, Lichens microbiology, Lichens physiology, Photosystem II Protein Complex metabolism, Ultraviolet Rays
Abstract

Lichen photobionts in situ have an extremely UV-B tolerant photosystem II efficiency (Fv/Fm). We have quantified the UV-B-screening offered by the mycobiont and the photobiont separately. The foliose lichens Nephroma arcticum and Umbilicaria spodochroa with 1: intact or 2: removed cortices were exposed to 0.7 Wm -2 UV-B BE for 4 h. Intact thalli experienced no reduction in Fv/Fm, whereas cortex removal lowered Fv/Fm in exposed photobiont layers by 22% for U. spodochroa and by 14% for N. arcticum. We also gave this UV-B dose to algal cultures of Coccomyxa and Trebouxia, the photobiont genera of N. arcticum and U. spodochroa, respectively. UV-B caused a 56% reduction in Fv/Fm for Coccomyxa, and as much as 98% in Trebouxia. The fluorescence excitation ratio (FER) technique comparing the fluorescence from UV-B or UV-A-excitation light with blue green excitation light using a Xe-PAM fluorometer showed that these photobiont genera did not screen any UV-B or UV-A The FER technique with a Multiplex fluorometer estimated the UV-A screening of isolated algae to be 13-16%, whereas intact lichens screened 92-95% of the UV-A. In conclusion, the cortex of N. arcticum and U. spodochroa transmitted no UV-B and little UV-A to the photobiont layer beneath. Thereby, the upper lichen cortex forms an efficient fungal solar radiation screen providing a high UV-B tolerance for studied photobionts in situ. By contrast, isolated photobionts have no UV-B screening and thus depend on their fungal partners in nature., (Copyright © 2018 Elsevier Masson SAS. All rights reserved.)

Published
2018
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33. Short- and long-term freezing effects in a coastal (Lobaria virens) versus a widespread lichen (L. pulmonaria).

Author

Solhaug KA, Chowdhury DP, and Gauslaa Y

Subjects
Adaptation, Physiological physiology, Cell Membrane pathology, Photosystem II Protein Complex physiology, Seasons, Cold Temperature adverse effects, Freezing adverse effects, Lichens growth & development, Lichens physiology
Abstract

Lichens are considered freezing tolerant, although few species have been tested. Growth, a robust measure of fitness integrating processes in all partners of a lichen thallus, has not yet been used as a viability measure after freezing. We compared relative growth rates (RGR) after freezing with short-term viability measures of photo- and mycobiont functions in the coastal Lobaria virens and the widespread L. pulmonaria to test the hypothesis that low temperature shapes the coastal distribution of L. virens. Hydrated thalli from sympatric populations were subjected to freezing at -10, -20 and -40 °C for 5 h. The rate of cooling and subsequent warming was 5 °C h -1 . Short-term viability measures of photobiont (maximal photosystem II efficiency, effective PSII yield) and mycobiont viability (conductivity index), as well as subsequent RGR, were assessed. The exotherms showed that L. virens froze at -3 °C; L. pulmonaria, at -4 °C. Freezing significantly impaired short-term viability measures of both photo- and mycobiont, particularly in the coastal species. Lobaria pulmonaria grew 2.1 times faster than L. virens, but the short-term damage after one freezing event did not affect the long-term RGR in any species. Thereby, short-term responses were impaired by freezing, long-term responses were not. While the lacking RGR-responses to freezing suggest that freezing tolerance does not shape the coastal distribution of L. virens, the significant reported adverse short-term effects in L. virens may be aggravated by repeated freezing-thawing cycles in cold winters. In such a perspective, repeated freezing may eventually lead to reduced long-term fitness in L. virens., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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35. Specialized fungal parasites reduce fitness of their lichen hosts.

Author

Merinero S and Gauslaa Y

Subjects
Lichens growth & development, Photosynthesis, Plant Tumors microbiology, Ascomycota physiology, Lichens microbiology
Abstract

Background and Aims: Understanding to what extent parasites affect host fitness is a focus of research on ecological interactions. Fungal parasites usually affect the functions of vascular plants. However, parasitic interactions comprising effects of fungal parasites on the fitness of lichen hosts are less well known. This study assesses the effects of the abundance of two highly specialized gall-forming fungi on growth of their two respective lichen hosts and tests whether these fungal parasites reduce lichen fitness., Methods: The relative biomass and thallus area growth rates, and change in specific thallus mass of Lobaria pulmonaria and L. scrobiculata were compared between lichens with and without galls of the lichenicolous fungi Plectocarpon lichenum and P. scrobiculatae, cultivated in a growth chamber for 14 d. By estimating the thallus area occupied by the galls, it was also assessed whether growth rates varied with effective photosynthetic lichen surface area., Key Results: Plectocarpon galls significantly reduced relative growth rates of the lichen hosts. Growth rates decreased with increasing cover of parasitic galls. The presence of Plectocarpon-galls per se, not the reduced photosynthetic thallus surface due to gall induction, reduced relative growth rates in infected hosts. Specific thallus mass in the hosts changed in species-specific ways., Conclusions: This study shows that specialized fungal parasites can reduce lichen fitness by reducing their growth rates. Higher parasite fitness correlated with lower host fitness, supporting the view that these associations are antagonistic. By reducing hosts' growth rates, these parasites in their symptomatic life stage may affect important lichen functions. This fungal parasite-lichen study widens the knowledge on the ecological effects of parasitism on autotrophic hosts and expands our understanding of parasitic interactions across overlooked taxonomic groups., (© The Authors 2017. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2018
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36. The role of fungal parasites in tri-trophic interactions involving lichens and lichen-feeding snails.

Author

Asplund J, Gauslaa Y, and Merinero S

Subjects
Animals, Carbon metabolism, Feeding Behavior, Nitrogen metabolism, Ascomycota physiology, Food Chain, Lichens microbiology, Parasites physiology, Snails microbiology
Abstract

Lichens are hosts for a variety of lichenicolous fungi. By investigating two lichens with specialized parasites, we will test the hypothesis that these parasites reduce lichen fitness by increasing the palatability of their respective hosts. The palatability of Lobarina scrobiculata and Lobaria pulmonaria with or without galls of the lichenicolous fungi, Plectocarpon scrobiculatae and P. lichenum, respectively, were quantified in a feeding-preference experiment with grazing snails (Cepaea hortensis). We repeated the experiment for pairs with or without gall in which the carbon-based secondary compounds (CBSCs) had been reduced nondestructively by acetone rinsing. Lichens with galls had lower concentration of CBSCs than those without, but this contrast disappeared after acetone rinsing. In the lichen high in nitrogen (N) (the cyanolichen L. scrobiculata), the grazing was low, and the snails did not discriminate between specimens with and without Plectocarpon-galls. In L. pulmonaria low in N (green algae as main photobiont), the parasite reduced the lichen C : N ratio and the snails strongly preferred specimens with Plectocarpon-galls, regardless of whether CBSC concentration had been reduced or not. In conclusion, some lichen parasites can indirectly reduce lichen fitness by increasing its palatability and thus the grazing pressure from snails, whereas other parasites do not affect grazing preferences., (© 2016 The Authors. New Phytologist © 2016 New Phytologist Trust.)

Published
2016
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37. Carbon based secondary compounds do not provide protection against heavy metal road pollutants in epiphytic macrolichens.

Author

Gauslaa Y, Yemets OA, Asplund J, and Solhaug KA

Subjects
Ascomycota metabolism, Carbon metabolism, Motor Vehicles, Norway, Air Pollutants metabolism, Environmental Monitoring, Lichens metabolism, Metals, Heavy metabolism
Abstract

Lichens are useful monitoring organisms for heavy metal pollution. They are high in carbon based secondary compounds (CBSCs) among which some may chelate heavy metals and thus increase metal accumulation. This study quantifies CBSCs in four epiphytic lichens transplanted for 6months on stands along transects from a highway in southern Norway to search for relationships between concentrations of heavy metals and CBSCs along a gradient in heavy metal pollutants. Viability parameters and concentrations of 21 elements including nutrients and heavy metals in these lichen samples were reported in a separate paper. Medullary CBSCs in fruticose lichens (Ramalina farinacea, Usnea dasypoga) were reduced in the most polluted sites, but not in foliose ones (Parmelia sulcata, Lobaria pulmonaria), whereas cortical CBSC did not change with distance from the road in any species. Strong positive correlations only occurred between the major medullary compound stictic acid present in L. pulmonaria and most heavy metals, consistent with a chelating role of stictic acid, but not of other studied CBSCs or in other species. However, heavy metal chelating did not protect L. pulmonaria against damage because this species experienced the strongest reduction in viability in the polluted sites. CBSCs with an accumulation potential for heavy metals should be quantified in lichen biomonitoring studies of heavy metals because they, like stictic acid, could overshadow pollutant inputs in some species rendering biomonitoring data less useful. In the two fruticose lichen species, CBSCs decreased with increasing heavy metal concentration, probably because heavy metal exposure impaired secondary metabolism. Thus, we found no support for a heavy metal protection role of any CBSCs in studied epiphytic lichens. No intraspecific relationships occurred between CBSCs versus N or C/N-ratio. Interspecifically, medullary CBSCs decreased and cortical CBSCs increased with increasing C/N-ratio., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2016
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38. Soluble carbohydrates and relative growth rates in chloro-, cyano- and cephalolichens: effects of temperature and nocturnal hydration.

Author

Alam MA, Gauslaa Y, and Solhaug KA

Subjects
Chlorophyll metabolism, Lichens, Carbohydrate Metabolism, Humidity, Parmeliaceae growth & development, Parmeliaceae metabolism, Temperature
Abstract

This growth chamber experiment evaluates how temperature and humidity regimes shape soluble carbohydrate pools and growth rates in lichens with different photobionts. We assessed soluble carbohydrates, relative growth rates (RGRs) and relative thallus area growth rates (RTA GRs) in Parmelia sulcata (chlorolichen), Peltigera canina (cyanolichen) and Peltigera aphthosa (cephalolichen) cultivated for 14 d (150 μmol m(-2) s(-1) ; 12-h photoperiod) at four day : night temperatures (28 : 23°C, 20 : 15°C, 13 : 8°C, 6 : 1°C) and two hydration regimes (hydration during the day, dry at night; hydration day : night). The major carbohydrates were mannitol (cephalolichen), glucose (cyanolichen) and arabitol (chlorolichen). Mannitol occurred in all species. During cultivation, total carbohydrate pools decreased in cephalo-/cyanolichens, but increased in the chlorolichen. Carbohydrates varied less than growth with temperature and humidity. All lichens grew rapidly, particularly at 13 : 8°C. RGRs and RTA GRs were significantly higher in lichens hydrated for 24 h than for 12 h. Strong photoinhibition occurred in cephalo- and cyanolichens kept in cool dry nights, resulting in positive relationships between RGR and dark-adapted photosystem II (PSII) efficiency (Fv /Fm ). RGR increased significantly with the photobiont-specific carbohydrate pools within all species. Average RGR peaked in the chlorolichen lowest in total and photobiont carbohydrates. Nocturnal hydration improved recovery from photoinhibition and/or enhanced conversion rates of photosynthates into growth., (© 2015 The Authors. New Phytologist © 2015 New Phytologist Trust.)

Published
2015
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39. Unequal allocation of excitation energy between photosystem II and I reduces cyanolichen photosynthesis in blue light.

Author

Solhaug KA, Xie L, and Gauslaa Y

Subjects
Ascomycota radiation effects, Carbon Dioxide metabolism, Chlorophyll metabolism, Chlorophyta radiation effects, Cyanobacteria radiation effects, Electron Transport, Lichens radiation effects, Light, Oxygen metabolism, Photosystem I Protein Complex metabolism, Photosystem II Protein Complex metabolism, Phycobilisomes metabolism, Ascomycota physiology, Chlorophyta physiology, Cyanobacteria physiology, Lichens physiology, Photosynthesis physiology
Abstract

Photosynthesis was compared in two cyanobacterial lichens (Lobaria hallii and Peltigera praetextata) and two green algal lichens (Lobaria pulmonaria and Peltigera leucophlebia) exposed to red, green or blue light. Cyanolichens had substantially lower photosynthetic CO(2) uptake and O(2) evolution than the green algal lichens in blue light, but slightly higher photosynthesis in red and green light. The effective quantum yield of photosystem (PS) II (Φ(PSII)) decreased with increasing red and green light for all species, but in blue light this response occurred in green algal lichens only. Cyanolichen Φ(PSII) increased with increasing blue light at low irradiances, but decreased at stronger exposures. However, after adding red light the efficiency of blue light for photosynthetic O(2) evolution increased by 2.4 times. Because phycobilisomes associated with PSII have a low blue light absorption, our results are consistent with blue light absorption mainly by Chl in PSI. Thereby, unequal allocation of excitation energy between PSII and PSI results in low cyanolichen photosynthesis under blue light. This is new knowledge in the science of lichenology with important implications for e.g. the reliability of using Chl fluorometers with blue light for cyanolichens., (© The Author 2014. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2014
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40. Sunscreening fungal pigments influence the vertical gradient of pendulous lichens in boreal forest canopies.

Author

Färber L, Sølhaug KA, Esseen PA, Bilger W, and Gauslaa Y

Subjects
Norway, Sunlight, Sweden, Water, Ecosystem, Fungi physiology, Lichens physiology, Pigments, Biological physiology, Trees physiology
Abstract

Pendulous lichens dominate canopies of boreal forests, with dark Bryoria species in the upper canopy vs. light Alectoria and Usnea species in lower canopy. These genera offer important ecosystem services such as winter forage for reindeer and caribou. The mechanism behind this niche separation is poorly understood. We tested the hypothesis that species-specific sunscreening fungal pigments protect underlying symbiotic algae differently against high light, and thus shape the vertical canopy gradient of epiphytes. Three pale species with the reflecting pigment usnic acid (Alectoria sarmentosa, Usnea dasypoga, U. longissima) and three with dark, absorbing melanins (Bryoria capillaris, B. fremontii, B. fuscescens) were compared. We subjected the lichens to desiccation stress with and without light, and assessed their performance with chlorophyll fluorescence. Desiccation alone only affected U. longissima. By contrast, light in combination with desiccation caused photoinhibitory damage in all species. Usnic lichens were significantly more susceptible to light during desiccation than melanic ones. Thus, melanin is a more efficient light-screening pigment than usnic acid. Thereby, the vertical gradient of pendulous lichens in forest canopies is consistent with a shift in type and functioning of sunscreening pigments, from high-light-tolerant Bryoria in the upper to susceptible Alectoria and Usnea in the lower canopy.

Published
2014
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41. Seasonal and spatial variation in carbon based secondary compounds in green algal and cyanobacterial members of the epiphytic lichen genus Lobaria.

Author

Gauslaa Y, Bidussi M, Solhaug KA, Asplund J, and Larsson P

Subjects
Benzofurans metabolism, Biomass, Carbon chemistry, Chlorophyta growth & development, Chlorophyta radiation effects, Cyanobacteria growth & development, Cyanobacteria radiation effects, Ecosystem, Lichens growth & development, Lichens radiation effects, Light, Trees microbiology, Carbon metabolism, Chlorophyta metabolism, Cyanobacteria metabolism, Lichens metabolism, Seasons
Abstract

Acetone-extractable carbon based secondary compounds (CBSCs) were quantified in two epiphytic lichens to study possible effects of external factors (season and aspect) on secondary chemistry and to relate defense investments to biomass growth and changes in specific thallus mass (STM). At the end of four separate annual cycles starting in each of the four seasons, the cyanolichen Lobaria scrobiculata and the cephalolichen Lobaria pulmonaria (green algae as the primary photobiont and with localized Nostoc in internal cephalodia) were monitored in their natural forest habitats and after being transplanted at three contrasting aspects in open sites. Season strongly influenced most CBSCs. Medullary CBSCs in both species were twice as high in summer as in winter. Aspect hardly affected major CBSCs, whereas transplantation from forest to clear-cut slightly reduced these compounds. No major CBSCs in any species showed a trade-off with growth rate. Dry matter- as well as thallus area-based medullary CBSC contents increased with STM. The cortical usnic acid strongly increased with growth rate and followed spatial, but not seasonal variations in light exposure. Maximal CBSC levels during seasons with most herbivores is consistent with the hypothesis inferring that herbivory is a major selective force for CBSCs. Lack of trade-off between growth and defence investments suggests that these two processes do not compete for photosynthates., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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42. Prolonging the hydration and active metabolism from light periods into nights substantially enhances lichen growth.

Author

Bidussi M, Gauslaa Y, and Solhaug KA

Subjects
Biomass, Chlorophyll metabolism, Lichens growth & development, Lichens metabolism, Lichens radiation effects, Light
Abstract

This study investigates how hydration during light and dark periods influences growth in two epiphytic old forest lichens, the green algal Lobaria pulmonaria and the cyanobacterial L. scrobiculata. The lichens were cultivated in growth chambers for 14 days (200 μmol m(-1) s(-2); 12 h photoperiod) at four temperature regimes (25/20 °C, 21/16 °C, 13/8 °C, and 6/1 °C; day/night temperatures) and two hydration regimes (12 h day-time hydration; 12 h day-time + 12 h night-time hydration). Growth was highly dynamic, showing that short-term growth experiments in growth cabinets have a high, but largely unexplored potential in functional lichen studies. The highest measured growth rates were not far from the maximal dry matter gain estimated from published net photosynthetic CO2 uptake data. For the entire data set, photobiont type, temperature, hydration regime and specific thallus mass accounted for 46.6 % of the variation in relative growth rate (RGR). Both species showed substantially higher relative growth rates based on both biomass (RGR) and thallus area (RTAGR) when they were hydrated day and night compared to hydration in light only. Chronic photoinhibition was substantial in thalli hydrated only during the day time and kept at the highest and lowest temperature regimes, resulting in exponential increases in RGR with increasing maximal PSII efficiency (F v/F m) in both species. However, the depression in F v/F m was stronger for the cyanolichen than for the cephalolichen at extreme temperatures. The growth-stimulating effect of night-time hydration suggests that nocturnal metabolic activity improves recovery of photoinhibition and/or enhances the conversion rate of photosynthates into thallus extension.

Published
2013
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43. The paradox of higher light tolerance during desiccation in rare old forest cyanolichens than in more widespread co-occurring chloro- and cephalolichens.

Author

Gauslaa Y, Coxson DS, and Solhaug KA

Subjects
Analysis of Variance, British Columbia, Climate, Ecosystem, Kinetics, Photosystem II Protein Complex metabolism, Plant Leaves physiology, Plant Leaves radiation effects, Solutions, Water metabolism, Adaptation, Physiological radiation effects, Desiccation, Lichens physiology, Lichens radiation effects, Light, Trees physiology, Trees radiation effects
Abstract

Desiccation tolerance was quantified in four cyanolichens (Lobaria hallii, Lobaria retigera, Lobaria scrobiculata, Pseudocyphellaria anomala), one cephalolichen (Lobaria pulmonaria) and one chlorolichen (Platismatia glauca) from xeric and mesic, open and closed North American boreal forests. These sympatric epiphytes were exposed to 0%, 33%, 55% and 75% relative humidity with or without medium light (200 μmol m⁻² s⁻¹) for 7 d. Permanent and temporary photoinhibitory damage was recorded as viability measures. All species tolerated well the drying in darkness, but L. hallii and L. retigera, associated with a very humid climate, showed minor damage at the hardest drying (silica gel). Simultaneous exposure to medium light severely aggravated the drying damage at all relative humidity levels. Combined drying-light exposure was particularly devastating for the widespread chloro- and cephalolichens, whereas cyanolichens, including rare old forest species, were fairly resistant. The ability to recover after combined drying-light stress (this study) correlated positively with increasing species-specific water holding capacities (from the literature). Cyanolichens, depending on liquid water and large internal water storage, probably require strong drying-light resistance to handle long periods between hydration events, whereas chlorolichens can regularly maintain their photosynthetic apparatus during frequent and rapid activation by humid air on clear mornings., (© 2012 The Authors. New Phytologist © 2012 New Phytologist Trust.)

Published
2012
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44. Seasonal partitioning of growth into biomass and area expansion in a cephalolichen and a cyanolichen of the old forest genus Lobaria.

Author

Larsson P, Solhaug KA, and Gauslaa Y

Subjects
Light, Biomass, Lichens growth & development, Seasons
Abstract

Growth in two old forest lichens was studied to evaluate how temporal (seasonal) and spatial (aspect-wise) partitioning of biomass and area growth respond to seasonal changes in light and climate. We monitored relative growth rates during annual courses in the cephalolichen Lobaria pulmonaria and the cyanolichen Lobaria scrobiculata transplanted in boreal clear-cut to five fixed aspects in winter, spring, summer, and autumn. For each annual set, growth was quantified in January-March, April-June, July-September and October-December. Mean biomass and area increased in all seasons, but growth was highest in July-September. Mass growth did not follow area increment during a year. As a result, mass per area (specific thallus mass (STM)) declined (L. scrobiculata) or stayed constant (L. pulmonaria) in the dark, humid October-December season, whereas it strongly increased in the dry, sunny April-June season. Aspect influenced growth in species-specific ways. Seasonality in biomass growth mainly followed light availability, whereas area growth was strongest during humid seasons. The substantial STM changes across seasons, species, and aspects can be explained as passive responses to seasonal climate. However, as STM, according to the literature, is a driver of water storage, recorded changes probably improve fitness by prolonging hydration in places or during times with high evaporative demands., (© 2012 The Authors. New Phytologist © 2012 New Phytologist Trust.)

Published
2012
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45. Optimal defense: snails avoid reproductive parts of the lichen Lobaria scrobiculata due to internal defense allocation.

Author

Asplund J, Solhaug KA, and Gauslaa Y

Subjects
Animals, Depsides chemistry, Lichens chemistry, Depsides metabolism, Feeding Behavior physiology, Lichens metabolism, Snails physiology
Abstract

The optimal defense theory (ODT) deals with defensive compounds improving fitness of a particular organism. It predicts that these compounds are allocated in proportion to the risk for a specific plant tissue being attacked and this tissue's value for plant fitness. As the benefit of defense cannot easily be measured in plants, the empirical evidence for ODT is limited. However, lichens are unique in the sense that their carbon-based secondary compounds can nondestructively be removed or reduced in concentration by acetone rinsing. By using such an extraction protocol, which is lethal to plants, we have tested the ODT by studying lichens instead of plants as photosynthetically active organisms. Prior to acetone rinsing, we found five times higher concentration of meta-scrobiculin in the reproductive parts (soralia) of Lobaria scrobiculata compared to somatic parts of this foliose epiphytic lichen species. At this stage, the lichen-feeding snail Cochlodina laminata avoided the soralia. However, after removal of secondary compounds, the snail instead preferred the soralia. In this way, we have successfully shown that grazing pattern inversely reflects the partitioning of the secondary compounds that have a documented deterring effect. Thus our study provides strong and novel evidence for the ODT.

Published
2010
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46. Light screening in lichen cortices can be quantified by chlorophyll fluorescence techniques for both reflecting and absorbing pigments.

Author

Solhaug KA, Larsson P, and Gauslaa Y

Subjects
Absorption radiation effects, Photosystem II Protein Complex metabolism, Plant Leaves metabolism, Plant Leaves radiation effects, Chlorophyll metabolism, Lichens metabolism, Lichens radiation effects, Spectrometry, Fluorescence methods
Abstract

Lichens, representing mutualistic symbioses between photobionts and mycobionts, often accumulate high concentrations of secondary compounds synthesized by the fungal partner. Light screening is one function for cortical compounds being deposited as crystals outside fungal hyphae. These compounds can non-destructively be extracted by 100% acetone from air-dry living thalli. Extraction of atranorin from Physcia aipolia changed the lichen colour from pale grey to green in the hydrated state, whereas acetone-rinsed and control thalli were all pale grey when dry. Removal of parietin from Xanthoria parietina changed the colour of desiccated thalli from orange to grey. Colour changes were quantified by reflectance measurements. By a new chlorophyll fluorescence method, screening was assessed as the decrease in incident irradiance (PAR) necessary to reach identical effective quantum yields of PSII (Phi(PSII)) in acetone-rinsed and control thalli. Thereby, we estimated a screening efficiency due to cortical atranorin crystals at 61, 38, and 40% of blue, green and red light, respectively, whereas parietin screened 81, 27 and 1% of these wavelength ranges. Removal of atranorin caused similar levels of increased photoinhibition for P. aipolia in blue, green and red light, whereas parietin-deficient thalli of X. parietina exhibited increased photoinhibition with decreasing wavelengths. Atranorin possibly prevents water from entering the spaces between the hyphae in the cortex. The air-filled cavities with white atranorin crystals reflect excess light, whereas the yellow compound parietin absorbs excess light. Thereby, both atranorin and parietin play significant photoprotective roles for symbiotic green algae, but with compound-specific screening mechanisms.

Published
2010
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47. Lichen compounds restrain lichen feeding by bank voles (Myodes glareolus).

Author

Nybakken L, Helmersen AM, Gauslaa Y, and Selås V

Subjects
Animals, Feeding Behavior, Food Preferences, Lichens metabolism, Predatory Behavior, Arvicolinae physiology, Lichens chemistry
Abstract

Some lichen compounds are known to deter feeding by invertebrate herbivores. We attempted to quantify the deterring efficiency of lichen compounds against a generalist vertebrate, the bank vole (Myodes glareolus). In two separate experiments, caged bank voles had the choice to feed on lichens with natural or reduced concentrations of secondary compounds. We rinsed air-dry intact lichens in 100% acetone to remove extracellular compounds non-destructively. In the first experiment, pairs of control and rinsed lichen thalli were hydrated and offered to the bank voles. Because the lichens desiccated fast, we ran a second experiment with pairs of ground control and compound-deficient thalli, each mixed with water to porridge. Eight and six lichen species were tested in the first and second experiment, respectively. In the first, bank voles preferred compound-deficient thalli of Cladonia stellaris and Lobaria pulmonaria, but did not discriminate between the other thallus pairs. This was likely a result of deterring levels of usnic and stictic acid in the control thalli. When lichens were served as porridge, significant preference was found for acetone-rinsed pieces of Cladonia arbuscula, C. rangiferina, Platismatia glauca, and Evernia prunastri. The increased preference was caused mainly by lower consumption of control thalli. Grinding and mixing of thallus structures prevented bank voles from selecting thallus parts with lower concentration of secondary compounds and/or strengthened their deterring capacity. We conclude that some lichen secondary compounds deter feeding by bank voles.

Published
2010
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48. Size-dependent growth of two old-growth associated macrolichen species.

Author

Gauslaa Y, Palmqvist K, Solhaug KA, Hilmo O, Holien H, Nybakken L, and Ohlson M

Subjects
Biomass, Climate, Plant Leaves growth & development, Regression Analysis, Species Specificity, Lichens growth & development, Plant Leaves anatomy & histology
Abstract

Relationships between thallus size and growth variables were analysed for the foliose Lobaria pulmonaria and the pendulous Usnea longissima with the aim of elucidating their morphogenesis and the factors determining thallus area (A) versus biomass (dry weight (DW) gain. Size and growth data originated from a factorial transplantation experiment that included three boreal climate zones (Atlantic, suboceanic and continental), each with three successional forest stands (clear-cut, young and old). When A was replaced by the estimated photobiont layer area in an area-DW scatterplot including all thalli (n = 1080), the two separate species clusters merged into one, suggesting similar allocation patterns between photobionts and mycobionts across growth forms. During transplantation, stand-specific water availability boosted area gain in foliose transplants, consistent with a positive role of water in fungal expansion. In pendulous lichens, A gain greatly exceeded DW gain, particularly in small transplants. The A gain in U. longissima increased with increasing DW:A ratio, consistent with a reallocation of carbon, presumably mobilized from the dense central chord. Pendulous lichens with cylindrical photobiont layers harvest light from all sides. Rapid and flexible three-dimensional A gain allows the colonization of spaces between canopy branches to utilize temporary windows of light in a growing canopy. Foliose lichens with a two-dimensional photobiont layer have more coupled A and DW gains.

Published
2009
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49. Mollusc grazing limits growth and early development of the old forest lichen Lobaria pulmonaria in broadleaved deciduous forests.

Author

Asplund J and Gauslaa Y

Subjects
Animals, Plant Leaves, Salix parasitology, Seasons, Feeding Behavior, Lichens growth & development, Mollusca growth & development, Trees parasitology
Abstract

THIS STUDY AIMS: (1) to quantify mollusc grazing on juvenile and mature thalli of the foliose epiphytic lichen Lobaria pulmonaria, and (2) to test the hypothesis inferring a herbivore defensive role of lichen depsidones in forests with indigenous populations of lichen-feeding molluscs. Lichens were transplanted in shaded and less shaded positions in each of two calcareous broadleaved deciduous forests, one poor in lichens, one with a rich Lobarion community. Preventing the access of molluscs significantly reduced the loss of juvenile L. pulmonaria, particularly in the naturally lichen-poor forest. Molluscs also severely grazed mature thalli in the lichen-poor forest, especially thalli placed under the more shading canopies. Furthermore, reducing the natural concentration of depsidones by pre-rinsing with acetone increased subsequent grazing significantly, showing that lichen depsidones function as herbivore defence in natural habitats. Our results suggest that mollusc grazing may play important roles in shaping the epiphytic vegetation in calcareous deciduous forests, and that recently established juvenile L. pulmonaria thalli seem to be particularly vulnerable.

Published
2008
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50. Forest successional stage affects the cortical secondary chemistry of three old forest lichens.

Author

Nybakken L, Asplund J, Solhaug KA, and Gauslaa Y

Subjects
Chromatography, High Pressure Liquid, Lichens classification, Pigmentation, Species Specificity, Ultraviolet Rays, Lichens chemistry, Trees
Abstract

Three epiphytic old forest lichens (Usnea longissima, Pseudocyphellaria crocata, and Lobaria pulmonaria) were transplanted along a natural shade-sun gradient comprising three successional stages in boreal spruce forests (dense young forest, open old forest, and clear-cut) for one summer. After harvest, extractable secondary compounds were analyzed by high-performance liquid chromatography, and the brown pigmentation in melanic species was quantified by reflectance measurements. Cortical compounds in all species increased from shady young forests to exposed clear-cuts. Usnic acid, the major cortical, secondary compound in U. longissima, showed consistently higher concentration in the clear-cut than in the two forested stands. Pseudocyphellaria crocata and L. pulmonaria, lacking extractable secondary compounds in the cortex, significantly increased their amounts of cortical melanins in well-lit stands. The medullary compounds showed more complex responses. Many were not influenced by environmental conditions during the transplantation, whereas the majority of those that responded showed the lowest concentration in clear-cut transplants. Only a few medullary compounds showed the highest concentration in the clear-cut, and at a low level of significance. The synthesis of UV-B-absorbing usnic acid and melanins seems to be part of an acclimation to increased light exposure. The medullary compounds in studied species barely function as solar screens despite their strong UV-B absorbance.

Published
2007
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