GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA

Antarctica is one of the most extreme environments on the planet considering the climatic conditions. This greatly limits the development of plants, and is reflected in slow growth, especially in the lichens present in this environment. Haematomma erythromma is a nitrophile lichen easily identifiabl...

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Published in:Oecologia Australis
Main Authors: Putzke, Jair, Schünemann, Adriano Luis, Pereira, Antonio Batista
Format: Article in Journal/Newspaper
Language:English
Published: Programa de Pós-Graduação em Ecologia 2021
Subjects:
Ecology
competition
ice-free areas
lichen growth
lichenometry
long-term evaluation
Antarctic
Elephant Island
South Shetland Islands
Stinker Point
Advances in Polar Science
Antarc*
Antarctic Science
Antarctica
Arctic
British Antarctic Survey Bulletin
Polar Biology
Polar Research
Polar Science
Online Access:https://revistas.ufrj.br/index.php/oa/article/view/24621
https://doi.org/10.4257/oeco.2021.2501.10
id ftufriodejaneiro:oai:www.revistas.ufrj.br:article/24621
record_format openpolar
institution Open Polar
collection Portal de Periódicos da UFRJ (Universidade Federal do Rio de Janeiro)
op_collection_id ftufriodejaneiro
language English
topic Ecology
competition
ice-free areas
lichen growth
lichenometry
long-term evaluation
spellingShingle Ecology
competition
ice-free areas
lichen growth
lichenometry
long-term evaluation
Putzke, Jair
Schünemann, Adriano Luis
Pereira, Antonio Batista
GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA
topic_facet Ecology
competition
ice-free areas
lichen growth
lichenometry
long-term evaluation
description Antarctica is one of the most extreme environments on the planet considering the climatic conditions. This greatly limits the development of plants, and is reflected in slow growth, especially in the lichens present in this environment. Haematomma erythromma is a nitrophile lichen easily identifiable by its color and was the species chosen to evaluate growth in Antarctica. Using a plastic sheet, squares of 20 x 20 cm were placed on eight different rocks with crustose lichen communities and the species found were drawn in 1992 and in 2012. The location chosen for the survey was Stinker Point, on Elephant Island, north of the South Shetland Archipelago. After 20 years and evaluating 178 thalli, H. erythromma grew 0.2 to 0.7 mm/year, one of the slowest among Antarctic lichens. The thallus growth is mainly oriented West/Northwest, against prevailing wind direction, probably due to nutrient carried form a penguin rockery nearby. New thalli formed during this evaluation and the old ones also grew to connect each other, resulting in a confluent larger thallus. The new thalli grew mostly over Xanthoria elegans (Link.) Th. Fr., Rhizoplaca aspidophora (Vain.) Redón and Buellia spp. demonstrating that H. erythromma is capable of colonize areas with other lichen species coverage. The growth to be confluent with other thalli and the wind orientation are novelties to this species of lichen.
format Article in Journal/Newspaper
author Putzke, Jair
Schünemann, Adriano Luis
Pereira, Antonio Batista
author_facet Putzke, Jair
Schünemann, Adriano Luis
Pereira, Antonio Batista
author_sort Putzke, Jair
title GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA
title_short GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA
title_full GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA
title_fullStr GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA
title_full_unstemmed GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA
title_sort growth rate and behavior over 20 years in the crustose lichen haematomma erythromma at elephant island, antarctica
publisher Programa de Pós-Graduação em Ecologia
publishDate 2021
url https://revistas.ufrj.br/index.php/oa/article/view/24621
https://doi.org/10.4257/oeco.2021.2501.10
op_coverage Elephant Island; South Shetland Islands; Antarctica
1992 and 2012
long_lat ENVELOPE(-55.184,-55.184,-61.085,-61.085)
ENVELOPE(-55.380,-55.380,-61.221,-61.221)
geographic Antarctic
Elephant Island
South Shetland Islands
Stinker Point
geographic_facet Antarctic
Elephant Island
South Shetland Islands
Stinker Point
genre Advances in Polar Science
Antarc*
Antarctic
Antarctic Science
Antarctica
Arctic
British Antarctic Survey Bulletin
Elephant Island
Polar Biology
Polar Research
Polar Science
Polar Science
South Shetland Islands
genre_facet Advances in Polar Science
Antarc*
Antarctic
Antarctic Science
Antarctica
Arctic
British Antarctic Survey Bulletin
Elephant Island
Polar Biology
Polar Research
Polar Science
Polar Science
South Shetland Islands
op_source Oecologia Australis; v. 25, n. 1 (2021): Spontaneous Submission; 103-116
2177-6199
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Armstrong, R. A., & Welch, A. R. 2007. Competition in lichen communities – review article. Symbiosis, 43, 1–12.
AutoCAD. 2015. Autodesk Software. Autodesk Knowledge Network. Available on: knowledge.autodesk.com
Booth, C. 1971. Methods in Microbiology. Vol. 4. London: Academic Press. p. 794.
Cao, S., Zheng, H., Liu, C., Tian, H., Zhou, Q., & Zhang, F. 2015. The various substrates of Usnea aurantiaco-atra and its algal sources in the Fildes Peninsula, Antarctica. Advances in Polar Science, 26(4), 274–281. DOI:10.13679/j.advps.2015.4.00274
Convey, P. 2006. Antarctic climate change and its influences on terrestrial ecosystems. In: Bergstrom, D., Convey, P. P., & Huiskes, A. H. L. (Eds.). Trends in Antarctic Terrestrial and Limnetic Ecosystems. pp. 253–272. Dordrecht, The Netherlands: Springer.
Green, T. G. A., Brabyn, L., Beard, C., & Sancho, L. G. 2012. Extremely low lichen growth rates in Taylor Valley, dry Walleys, Continental Antarctica. Polar Biology, 35(4), 535–541. DOI:10.1007/s00300-011-1098-7
Hooker, T. N. 1980a. Factors affecting the growth of Antarctic crustose lichens. British Antarctic Survey Bulletin, 50, 1–19.
Hooker, T. N. 1980b. Lobe growth and marginal zonation in crustose lichens. Lichenologist, 12, 313–323.
Hooker, T. N. 1980c. Growth and production of Cladonia rangifera and Sphaerophorus globosus on Signy Island, South Orkney Islands. British Antarctic Survey Bulletin, 50, 27–34.
Johansson, P., & Thor, G. 2008. Lichen species density and abundance over ten years in permanent plots in inland Dronning Maud Land, Antarctica. Antarctic Science, 20(02), 115–121. DOI:10.1017/S0954102007000855
Kranner, I., Beckett, R. Hochman, A., & Nash III, T. H. 2008. Desiccation-tolerance in lichens: a review. The Bryologist ,111(4), 576–593.
Lawrey, J. D. 1984. Biology of Lichenized Fungi. New York: Praeger. p. 408.
Lewis-Smith, R. 1995. Colonization by lichens and the development of lichen-dominated communities in the maritime Antarctic. Lichenologist, 27(6), 473–483. DOI:10.1017/S0024282995000600
Li, Y., Kromer B., Schukraft, G., Bubenzer, O., Huang, M., Wang, Z., Bian, L., & Li, C. 2014. Growth rate of Usnea aurantiacoatra (Jacq.) Bory on Fildes Peninsula, Antarctica and its climatic background. PLoS ONE, 9(6), e100735. DOI:10.1371/journal.pone.0100735
Lindsay, D. C. 1973. Estimates of lichen growth rates in the maritime Antarctic. Arctic Alpine Research, 5, 199–200.
Little, L. 2009. Lichen life in Antarctica - A review on growth and environmental adaptations of lichens in Antarctica. Individual Project for ANTA 504 for GCAS 08/09. p. 21.
Messuti, M. I., & De la Rosa, I. N. 2009. Notes on the genus Haematomma (Ascomycota, Lecanoraceae) in Argentina. Darwiniana, 47(2), 297–308.
Nash, T. H. 2008. Lichen biology. Cambridge: Cambridge University Press. p. 502.
Ochyra R., Lewis-Smith, R. I., & Bednarek-Ochyra, H. 2008. The illustrated moss flora of Antarctica. New York: Cambridge University Press. p. 704.
Olech, M. 1990. Preliminary studies on ornithocoprophilous lichens of the Arctic and Antarctic regions. Proceedings of NIPR Symposium of Polar Biology, 3, 218–223.
Olech, M. 1994. Lichenological assessment of the Cape Lions Rump, King George Island, South Shetland Islands; a baseline for monitoring biological changes. Polish Polar Research, 15 (3-4), 111–130.
Øvstedal, D. O., & Smith, R. I. L. 2001. Lichens of Antarctica and South Georgia – a guide to their identification and Ecology. Studies in Polar Research. Cambridge University Press: p. 411.
Pentecost, A. 1980. Aspects of competition in saxicolous lichen communities. Lichenologist, 12, 135–144. DOI:10.1017/S0024282980000060.
Protocol on Environmental Protection to the Antarctic Treaty. Opened for signature on 4 October 1991, 30 ILM (1991). (entered into force 14 January 1998).
Putzke, J., Vieira, F. C. B., & Pereira, A. B. 2019. Vegetation recovery after the removal of a facility in Elephant Island, Maritime Antarctic. Land Degradation & Development, 31, 96–104. DOI:10.1002/ldr.3431
Putzke, J. 2020. Bryophytes and their associates in South Shetland Islands – Antarctica. In: Afroz, A. (Ed.). Recent advances in botanical sciences. Vol. 1. pp. 8 – 19. Singapore: Benthan Books.
Redon, J. 1985. Liquenes Antárticos. Santiago de Chile: Instituto Antártico Chileno: p. 123.
Sancho, L., Green, A., & Pintado, A. 2007. Slowest to fastest: Extreme range in lichen growth rates support their use as an indicator of climate change in Antarctica. Flora, 202, 667–673. DOI:10.1016/j.flora.2007.05.005
Sancho, L., & Pintado, A. 2004. Evidence of high annual growth rate for lichens in the maritime Antarctic. Polar Biology, 27(5), 312–319. DOI:10.1007/s00300-004-0594-4
Sancho, L. G., Green, T. G. A., & Pintado, A. 2007. Slowest to fastest: Extreme range in lichen growth rates supports their use as an indicator of climate change in Antarctica. Flora, 202, 667–673.
Sancho, L. G., Pintado, A., & Green, T. G. A. 2019. Antarctic studies show lichens to be excellent biomonitors of climate change. Diversity, 11(42), 1–14.
Smith, L. R. I. 1995. Vascular plants as bioindicators of regional warming in Antarctica. Oecologia, 99, 322–328.
Turner, J., Colwell, S. R., Marshall, G. J., Lachlan-Cope, T. A., Carleton, A. M., Jones, P.D., Lagun, V., Reid, P. A., & Iagovkina, S. 2005. Antarctic climatic change during the last 50 years. International Journal of Climatology, 25(3), 279–294. DOI:10.1002/joc.1130
Valladares, F., & Sancho, L. 1995. Lichen colonization and recolonization of two recently deglaciated zones in the maritime Antarctic. The Lichenologist, 27(06), 485-493. DOI:10.1017/S0024282995000612
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spelling ftufriodejaneiro:oai:www.revistas.ufrj.br:article/24621 2023-05-15T13:05:29+02:00 GROWTH RATE AND BEHAVIOR OVER 20 YEARS IN THE CRUSTOSE LICHEN HAEMATOMMA ERYTHROMMA AT ELEPHANT ISLAND, ANTARCTICA Putzke, Jair Schünemann, Adriano Luis Pereira, Antonio Batista Elephant Island; South Shetland Islands; Antarctica 1992 and 2012 2021-03-15 application/pdf https://revistas.ufrj.br/index.php/oa/article/view/24621 https://doi.org/10.4257/oeco.2021.2501.10 eng eng Programa de Pós-Graduação em Ecologia https://revistas.ufrj.br/index.php/oa/article/view/24621/22848 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7528 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7529 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7530 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7532 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7534 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7535 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7536 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7537 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/7617 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/13066 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/13067 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/13068 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/13069 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/13070 https://revistas.ufrj.br/index.php/oa/article/downloadSuppFile/24621/13071 Armstrong, R. A., & Welch, A. R. 2007. Competition in lichen communities – review article. Symbiosis, 43, 1–12. AutoCAD. 2015. Autodesk Software. Autodesk Knowledge Network. Available on: knowledge.autodesk.com Booth, C. 1971. Methods in Microbiology. Vol. 4. London: Academic Press. p. 794. Cao, S., Zheng, H., Liu, C., Tian, H., Zhou, Q., & Zhang, F. 2015. The various substrates of Usnea aurantiaco-atra and its algal sources in the Fildes Peninsula, Antarctica. Advances in Polar Science, 26(4), 274–281. DOI:10.13679/j.advps.2015.4.00274 Convey, P. 2006. Antarctic climate change and its influences on terrestrial ecosystems. In: Bergstrom, D., Convey, P. P., & Huiskes, A. H. L. (Eds.). Trends in Antarctic Terrestrial and Limnetic Ecosystems. pp. 253–272. Dordrecht, The Netherlands: Springer. Green, T. G. A., Brabyn, L., Beard, C., & Sancho, L. G. 2012. Extremely low lichen growth rates in Taylor Valley, dry Walleys, Continental Antarctica. Polar Biology, 35(4), 535–541. DOI:10.1007/s00300-011-1098-7 Hooker, T. N. 1980a. Factors affecting the growth of Antarctic crustose lichens. British Antarctic Survey Bulletin, 50, 1–19. Hooker, T. N. 1980b. Lobe growth and marginal zonation in crustose lichens. Lichenologist, 12, 313–323. Hooker, T. N. 1980c. Growth and production of Cladonia rangifera and Sphaerophorus globosus on Signy Island, South Orkney Islands. British Antarctic Survey Bulletin, 50, 27–34. Johansson, P., & Thor, G. 2008. Lichen species density and abundance over ten years in permanent plots in inland Dronning Maud Land, Antarctica. Antarctic Science, 20(02), 115–121. DOI:10.1017/S0954102007000855 Kranner, I., Beckett, R. Hochman, A., & Nash III, T. H. 2008. Desiccation-tolerance in lichens: a review. The Bryologist ,111(4), 576–593. Lawrey, J. D. 1984. Biology of Lichenized Fungi. New York: Praeger. p. 408. Lewis-Smith, R. 1995. Colonization by lichens and the development of lichen-dominated communities in the maritime Antarctic. Lichenologist, 27(6), 473–483. DOI:10.1017/S0024282995000600 Li, Y., Kromer B., Schukraft, G., Bubenzer, O., Huang, M., Wang, Z., Bian, L., & Li, C. 2014. Growth rate of Usnea aurantiacoatra (Jacq.) Bory on Fildes Peninsula, Antarctica and its climatic background. PLoS ONE, 9(6), e100735. DOI:10.1371/journal.pone.0100735 Lindsay, D. C. 1973. Estimates of lichen growth rates in the maritime Antarctic. Arctic Alpine Research, 5, 199–200. Little, L. 2009. Lichen life in Antarctica - A review on growth and environmental adaptations of lichens in Antarctica. Individual Project for ANTA 504 for GCAS 08/09. p. 21. Messuti, M. I., & De la Rosa, I. N. 2009. Notes on the genus Haematomma (Ascomycota, Lecanoraceae) in Argentina. Darwiniana, 47(2), 297–308. Nash, T. H. 2008. Lichen biology. Cambridge: Cambridge University Press. p. 502. Ochyra R., Lewis-Smith, R. I., & Bednarek-Ochyra, H. 2008. The illustrated moss flora of Antarctica. New York: Cambridge University Press. p. 704. Olech, M. 1990. Preliminary studies on ornithocoprophilous lichens of the Arctic and Antarctic regions. Proceedings of NIPR Symposium of Polar Biology, 3, 218–223. Olech, M. 1994. Lichenological assessment of the Cape Lions Rump, King George Island, South Shetland Islands; a baseline for monitoring biological changes. Polish Polar Research, 15 (3-4), 111–130. Øvstedal, D. O., & Smith, R. I. L. 2001. Lichens of Antarctica and South Georgia – a guide to their identification and Ecology. Studies in Polar Research. Cambridge University Press: p. 411. Pentecost, A. 1980. Aspects of competition in saxicolous lichen communities. Lichenologist, 12, 135–144. DOI:10.1017/S0024282980000060. Protocol on Environmental Protection to the Antarctic Treaty. Opened for signature on 4 October 1991, 30 ILM (1991). (entered into force 14 January 1998). Putzke, J., Vieira, F. C. B., & Pereira, A. B. 2019. Vegetation recovery after the removal of a facility in Elephant Island, Maritime Antarctic. Land Degradation & Development, 31, 96–104. DOI:10.1002/ldr.3431 Putzke, J. 2020. Bryophytes and their associates in South Shetland Islands – Antarctica. In: Afroz, A. (Ed.). Recent advances in botanical sciences. Vol. 1. pp. 8 – 19. Singapore: Benthan Books. Redon, J. 1985. Liquenes Antárticos. Santiago de Chile: Instituto Antártico Chileno: p. 123. Sancho, L., Green, A., & Pintado, A. 2007. Slowest to fastest: Extreme range in lichen growth rates support their use as an indicator of climate change in Antarctica. Flora, 202, 667–673. DOI:10.1016/j.flora.2007.05.005 Sancho, L., & Pintado, A. 2004. Evidence of high annual growth rate for lichens in the maritime Antarctic. Polar Biology, 27(5), 312–319. DOI:10.1007/s00300-004-0594-4 Sancho, L. G., Green, T. G. A., & Pintado, A. 2007. Slowest to fastest: Extreme range in lichen growth rates supports their use as an indicator of climate change in Antarctica. Flora, 202, 667–673. Sancho, L. G., Pintado, A., & Green, T. G. A. 2019. Antarctic studies show lichens to be excellent biomonitors of climate change. Diversity, 11(42), 1–14. Smith, L. R. I. 1995. Vascular plants as bioindicators of regional warming in Antarctica. Oecologia, 99, 322–328. Turner, J., Colwell, S. R., Marshall, G. J., Lachlan-Cope, T. A., Carleton, A. M., Jones, P.D., Lagun, V., Reid, P. A., & Iagovkina, S. 2005. Antarctic climatic change during the last 50 years. International Journal of Climatology, 25(3), 279–294. DOI:10.1002/joc.1130 Valladares, F., & Sancho, L. 1995. Lichen colonization and recolonization of two recently deglaciated zones in the maritime Antarctic. The Lichenologist, 27(06), 485-493. DOI:10.1017/S0024282995000612 Direitos autorais 2020 Oecologia Australis Oecologia Australis; v. 25, n. 1 (2021): Spontaneous Submission; 103-116 2177-6199 Ecology competition ice-free areas lichen growth lichenometry long-term evaluation info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2021 ftufriodejaneiro https://doi.org/10.4257/oeco.2021.2501.10 https://doi.org/10.1017/S0024282995000600 https://doi.org/10.1017/S0024282980000060 2021-08-02T08:29:05Z Antarctica is one of the most extreme environments on the planet considering the climatic conditions. This greatly limits the development of plants, and is reflected in slow growth, especially in the lichens present in this environment. Haematomma erythromma is a nitrophile lichen easily identifiable by its color and was the species chosen to evaluate growth in Antarctica. Using a plastic sheet, squares of 20 x 20 cm were placed on eight different rocks with crustose lichen communities and the species found were drawn in 1992 and in 2012. The location chosen for the survey was Stinker Point, on Elephant Island, north of the South Shetland Archipelago. After 20 years and evaluating 178 thalli, H. erythromma grew 0.2 to 0.7 mm/year, one of the slowest among Antarctic lichens. The thallus growth is mainly oriented West/Northwest, against prevailing wind direction, probably due to nutrient carried form a penguin rockery nearby. New thalli formed during this evaluation and the old ones also grew to connect each other, resulting in a confluent larger thallus. The new thalli grew mostly over Xanthoria elegans (Link.) Th. Fr., Rhizoplaca aspidophora (Vain.) Redón and Buellia spp. demonstrating that H. erythromma is capable of colonize areas with other lichen species coverage. The growth to be confluent with other thalli and the wind orientation are novelties to this species of lichen. Article in Journal/Newspaper Advances in Polar Science Antarc* Antarctic Antarctic Science Antarctica Arctic British Antarctic Survey Bulletin Elephant Island Polar Biology Polar Research Polar Science Polar Science South Shetland Islands Portal de Periódicos da UFRJ (Universidade Federal do Rio de Janeiro) Antarctic Elephant Island ENVELOPE(-55.184,-55.184,-61.085,-61.085) South Shetland Islands Stinker Point ENVELOPE(-55.380,-55.380,-61.221,-61.221) Oecologia Australis 25 01 103 116

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