地衣的最新文献——265

IF 0.8 4区 生物学 Q4 PLANT SCIENCES Bryologist Pub Date : 2022-05-25 DOI:10.1639/0007-2745-125.2.380
J. Lendemer
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Assessment of airborne lead provenance in northern Ontario, Canada, using isotopic ratios in snow and Cladonia rangiferina lichens. Water, Air, and Soil Pollution 232(2): 61. Aptroot, A., A. A. Spielmann & E. L. Gumboski. 2021. New lichen species and records from Santa Catarina and Rio Grande do Sul, Brazil. Archive for Lichenology 23: 1–18. [New (all from Brazil): Astrothelium aureoirregulare Aptroot & Gumboski, Bogoriella xantholateralis Aptroot, Lecanora umbilicatimmersa Aptroot & Spielmann, Lepra lichexanthonorstictica Aptroot, Megalaria flavosorediata Aptroot, Vainionora sorediata Aptroot.] Aptroot, A., N. J. Stapper, A. Košuthová & K. van Herk. 2021. Lichens as an indicator of climate and global change. Pages 483– 497. In: T. M. Letcher (ed.), Climate Change, Observed Impacts on Planet Earth, Third Edition. Elsevier. Avidlyandi, A., M. Adfa & S. Yudha. 2021. Antitermite activity of methanol extract of lichen Teloschistes flavicans (Sw) Norman against Coptotermes curvignathus. Journal of Physics: Conference Series 1731(1): 012022. Azman, A. A., N. Nadiah, A. R. Rosandy, A. Alwi, N. Kamal, R. M. Khalid & M. A. Bakar. 2021. Antimicrobial activity and lc-ms data comparison from lichen Parmotrema praesorediosum in Bangi, Selangor, Malaysia. Sains Malaysiana 50(2): 383–393. Baldrian, P., T. Větrovský, C. Lepinay & P. Kohout. 2021. Highthroughput sequencing view on the magnitude of global fungal diversity. Fungal Diversity: 10.1007/s13225–021–00472–y. [Lichens host some of the highest levels of fungal diversity.] Bates, S. T., A. Barber, E. Gilbert, R. T. Schroeder & T. H. Nash III. 2010. A revised catalog of Arizona lichens. Canotia 6(1): 26–43. Beckett, R. P., F. Minibayeva, K. A. Solhaug & T. Roach. 2021. Photoprotection in lichens: Adaptations of photobionts to high light. The Lichenologist 53(1): 21–33. Bell-Doyon, P., S. B. Selva & R. T. McMullin. 2021. Calicioid fungi and lichens from an unprotected intact forest ecosystem in Québec. Ecoscience 28(2): 127–136. Blasco, M., C. Domeño & C. Nerı́n. 2008. Lichens biomonitoring as feasible methodology to assess air pollution in natural ecosystems: Combined study of quantitative PAHs analyses and lichen biodiversity in the Pyrenees Mountains. Analytical and Bioanalytical Chemistry 391: 759–771. Boch, S., H. Saiz, E. Allan, P. Schall, D. Prati, E.-D. Schulze, D. Hessenmöller, L. B. Sparrius & M. Fischer. 2021. Direct and indirect effects of management intensity and environmental factors on the functional diversity of lichens in central European forests. Microorganisms 9(2): 463. Boiko, T. O. 2012. The life forms of lichens on different substrates in Yelanetsko-Ingulskiy region (Mikolayivska and Kirovogradska oblast, Ukraine). Modern Phytomorphology 2: 85–88. [In Ukrainian with English abstract.] Bui, V. M., B. L. C. Huynh, N. K. T. Pham, T. A. T. Nguyen, T. T. T. Nguyen, K. P. P. Nguyen & T. P. Nguyen. 2021. Usneaceratins A and B, two new secondary metabolites from the lichen Usnea ceratina. Natural Product Research: 10.1080/14786419.2021. 1901288. Bültmann, H. & C. H. Lünterbusch. 2008. The Cladonia cariosa group in Greenland. Abhandlungen aus dem Westfälischen Museum für Naturkunde 70(3/4): 305–312. Cannon, P., A. Aptroot, B. Coppins, N. Sanderson & J. Simkin. 2021. Peltigerales: Pannariaceae, including the genera Fuscopannaria, Leptogidium, Nevesia, Pannaria, Parmeliella, Pectenia, Protopannaria and Psoroma. Revisions of British and Irish Lichens 9: 1–16. [Treatment with keys, descriptions and maps.] Cannon, P., S. Chambers, B. Coppins, N. Sanderson & J. Simkin. 2021. Pertusariales: Pertusariaceae, including the genus Pertusaria. Revisions of British and Irish Lichens 6: 1–13. [Treatment with keys, descriptions and maps.] Cannon, P., S. Ekman, S. Kistenich, S. LaGreca, C. Printzen, E. Timdal, A. Aptroot, B. Coppins, A. Fletcher, N. Sanderson & J. Simkin. 2021. Lecanorales: Ramalinaceae, including the genera Bacidia, Bacidina, Bellicidia, Biatora, Bibbya, Bilimbia, Cliostomum, Kiliasia, Lecania, Megalaria, Mycobilimbia, Phyllopsora, 1 Author’s email: jlendemer@nybg.org The cumulative database for this series is available in searchable form on the World Wide Web at http://nhm2.uio. no/botanisk/lav/RLL/RLL.HTM with full abstracts, DOIs, and links to electronically available articles when possible. Thanks to the following: Einar Timdal for his work on the RLL database, Buck Bill for checking recently published literature, Scopus Jim Bennett for sharing alerts, and the many authors who send reprints or electronic versions of their works for inclusion. 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Lichens as biosensors for the evaluation of urban and suburban air pollution in a tropical mountain valley, Rionegro, Antioquia. Revista Bionatura 6(1): 1501–1509. Aggarwal, S. 2021. Indian dye yielding plants: Efforts and opportunities. Natural Resources Forum 45(1): 63–86. Akerman, T., G. Spiers, P. Beckett, J. Anderson & F. Caron. 2021. Assessment of airborne lead provenance in northern Ontario, Canada, using isotopic ratios in snow and Cladonia rangiferina lichens. Water, Air, and Soil Pollution 232(2): 61. Aptroot, A., A. A. Spielmann & E. L. Gumboski. 2021. New lichen species and records from Santa Catarina and Rio Grande do Sul, Brazil. Archive for Lichenology 23: 1–18. [New (all from Brazil): Astrothelium aureoirregulare Aptroot & Gumboski, Bogoriella xantholateralis Aptroot, Lecanora umbilicatimmersa Aptroot & Spielmann, Lepra lichexanthonorstictica Aptroot, Megalaria flavosorediata Aptroot, Vainionora sorediata Aptroot.] Aptroot, A., N. J. Stapper, A. Košuthová & K. van Herk. 2021. Lichens as an indicator of climate and global change. Pages 483– 497. In: T. M. Letcher (ed.), Climate Change, Observed Impacts on Planet Earth, Third Edition. Elsevier. Avidlyandi, A., M. Adfa & S. Yudha. 2021. Antitermite activity of methanol extract of lichen Teloschistes flavicans (Sw) Norman against Coptotermes curvignathus. Journal of Physics: Conference Series 1731(1): 012022. Azman, A. A., N. Nadiah, A. R. Rosandy, A. Alwi, N. Kamal, R. M. Khalid & M. A. Bakar. 2021. Antimicrobial activity and lc-ms data comparison from lichen Parmotrema praesorediosum in Bangi, Selangor, Malaysia. Sains Malaysiana 50(2): 383–393. Baldrian, P., T. Větrovský, C. Lepinay & P. Kohout. 2021. Highthroughput sequencing view on the magnitude of global fungal diversity. Fungal Diversity: 10.1007/s13225–021–00472–y. [Lichens host some of the highest levels of fungal diversity.] Bates, S. T., A. Barber, E. Gilbert, R. T. Schroeder & T. H. Nash III. 2010. A revised catalog of Arizona lichens. Canotia 6(1): 26–43. Beckett, R. P., F. Minibayeva, K. A. Solhaug & T. Roach. 2021. Photoprotection in lichens: Adaptations of photobionts to high light. The Lichenologist 53(1): 21–33. Bell-Doyon, P., S. B. Selva & R. T. McMullin. 2021. Calicioid fungi and lichens from an unprotected intact forest ecosystem in Québec. Ecoscience 28(2): 127–136. Blasco, M., C. Domeño & C. Nerı́n. 2008. Lichens biomonitoring as feasible methodology to assess air pollution in natural ecosystems: Combined study of quantitative PAHs analyses and lichen biodiversity in the Pyrenees Mountains. Analytical and Bioanalytical Chemistry 391: 759–771. Boch, S., H. Saiz, E. Allan, P. Schall, D. Prati, E.-D. Schulze, D. Hessenmöller, L. B. Sparrius & M. Fischer. 2021. Direct and indirect effects of management intensity and environmental factors on the functional diversity of lichens in central European forests. Microorganisms 9(2): 463. Boiko, T. O. 2012. 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引用次数: 0

摘要

org本系列的累积数据库以可搜索的形式在万维网上提供,网址为http://nhm2.uio.no/botalsk/lav/RLL/RLL.HTM,尽可能提供完整的摘要、DOI和电子文章链接。感谢以下人士:Einar Timdal在RLL数据库上的工作,Buck Bill检查最近发表的文献,Scopus Jim Bennett分享警报,以及许多发送其作品重印或电子版本以供收录的作者。DOI:10.1639/0007-2745-125.2.380
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Recent literature on lichens—265
Aartsma, P., J. Asplund, A. Odland, S. Reinhardt & H. Renssen. 2021. Microclimatic comparison of lichen heaths and shrubs: Shrubification generates atmospheric heating but subsurface cooling during the growing season. Biogeosciences 18(5): 1577– 1599. Abas, A. & L. Din. 2020. Heavy metal concentration assessment using transplanted lichen Usnea misaminensis at Pasir Gudang, Johor. IOP Conference Series: Earth and Environmental Science 549: 012063. Abril, M. A. Q., D. M. R. Ospina, M. I. D. Rave & J. L. Valencia. 2021. Lichens as biosensors for the evaluation of urban and suburban air pollution in a tropical mountain valley, Rionegro, Antioquia. Revista Bionatura 6(1): 1501–1509. Aggarwal, S. 2021. Indian dye yielding plants: Efforts and opportunities. Natural Resources Forum 45(1): 63–86. Akerman, T., G. Spiers, P. Beckett, J. Anderson & F. Caron. 2021. Assessment of airborne lead provenance in northern Ontario, Canada, using isotopic ratios in snow and Cladonia rangiferina lichens. Water, Air, and Soil Pollution 232(2): 61. Aptroot, A., A. A. Spielmann & E. L. Gumboski. 2021. New lichen species and records from Santa Catarina and Rio Grande do Sul, Brazil. Archive for Lichenology 23: 1–18. [New (all from Brazil): Astrothelium aureoirregulare Aptroot & Gumboski, Bogoriella xantholateralis Aptroot, Lecanora umbilicatimmersa Aptroot & Spielmann, Lepra lichexanthonorstictica Aptroot, Megalaria flavosorediata Aptroot, Vainionora sorediata Aptroot.] Aptroot, A., N. J. Stapper, A. Košuthová & K. van Herk. 2021. Lichens as an indicator of climate and global change. Pages 483– 497. In: T. M. Letcher (ed.), Climate Change, Observed Impacts on Planet Earth, Third Edition. Elsevier. Avidlyandi, A., M. Adfa & S. Yudha. 2021. Antitermite activity of methanol extract of lichen Teloschistes flavicans (Sw) Norman against Coptotermes curvignathus. Journal of Physics: Conference Series 1731(1): 012022. Azman, A. A., N. Nadiah, A. R. Rosandy, A. Alwi, N. Kamal, R. M. Khalid & M. A. Bakar. 2021. Antimicrobial activity and lc-ms data comparison from lichen Parmotrema praesorediosum in Bangi, Selangor, Malaysia. Sains Malaysiana 50(2): 383–393. Baldrian, P., T. Větrovský, C. Lepinay & P. Kohout. 2021. Highthroughput sequencing view on the magnitude of global fungal diversity. Fungal Diversity: 10.1007/s13225–021–00472–y. [Lichens host some of the highest levels of fungal diversity.] Bates, S. T., A. Barber, E. Gilbert, R. T. Schroeder & T. H. Nash III. 2010. A revised catalog of Arizona lichens. Canotia 6(1): 26–43. Beckett, R. P., F. Minibayeva, K. A. Solhaug & T. Roach. 2021. Photoprotection in lichens: Adaptations of photobionts to high light. The Lichenologist 53(1): 21–33. Bell-Doyon, P., S. B. Selva & R. T. McMullin. 2021. Calicioid fungi and lichens from an unprotected intact forest ecosystem in Québec. Ecoscience 28(2): 127–136. Blasco, M., C. Domeño & C. Nerı́n. 2008. Lichens biomonitoring as feasible methodology to assess air pollution in natural ecosystems: Combined study of quantitative PAHs analyses and lichen biodiversity in the Pyrenees Mountains. Analytical and Bioanalytical Chemistry 391: 759–771. Boch, S., H. Saiz, E. Allan, P. Schall, D. Prati, E.-D. Schulze, D. Hessenmöller, L. B. Sparrius & M. Fischer. 2021. Direct and indirect effects of management intensity and environmental factors on the functional diversity of lichens in central European forests. Microorganisms 9(2): 463. Boiko, T. O. 2012. The life forms of lichens on different substrates in Yelanetsko-Ingulskiy region (Mikolayivska and Kirovogradska oblast, Ukraine). Modern Phytomorphology 2: 85–88. [In Ukrainian with English abstract.] Bui, V. M., B. L. C. Huynh, N. K. T. Pham, T. A. T. Nguyen, T. T. T. Nguyen, K. P. P. Nguyen & T. P. Nguyen. 2021. Usneaceratins A and B, two new secondary metabolites from the lichen Usnea ceratina. Natural Product Research: 10.1080/14786419.2021. 1901288. Bültmann, H. & C. H. Lünterbusch. 2008. The Cladonia cariosa group in Greenland. Abhandlungen aus dem Westfälischen Museum für Naturkunde 70(3/4): 305–312. Cannon, P., A. Aptroot, B. Coppins, N. Sanderson & J. Simkin. 2021. Peltigerales: Pannariaceae, including the genera Fuscopannaria, Leptogidium, Nevesia, Pannaria, Parmeliella, Pectenia, Protopannaria and Psoroma. Revisions of British and Irish Lichens 9: 1–16. [Treatment with keys, descriptions and maps.] Cannon, P., S. Chambers, B. Coppins, N. Sanderson & J. Simkin. 2021. Pertusariales: Pertusariaceae, including the genus Pertusaria. Revisions of British and Irish Lichens 6: 1–13. [Treatment with keys, descriptions and maps.] Cannon, P., S. Ekman, S. Kistenich, S. LaGreca, C. Printzen, E. Timdal, A. Aptroot, B. Coppins, A. Fletcher, N. Sanderson & J. Simkin. 2021. Lecanorales: Ramalinaceae, including the genera Bacidia, Bacidina, Bellicidia, Biatora, Bibbya, Bilimbia, Cliostomum, Kiliasia, Lecania, Megalaria, Mycobilimbia, Phyllopsora, 1 Author’s email: jlendemer@nybg.org The cumulative database for this series is available in searchable form on the World Wide Web at http://nhm2.uio. no/botanisk/lav/RLL/RLL.HTM with full abstracts, DOIs, and links to electronically available articles when possible. Thanks to the following: Einar Timdal for his work on the RLL database, Buck Bill for checking recently published literature, Scopus Jim Bennett for sharing alerts, and the many authors who send reprints or electronic versions of their works for inclusion. DOI: 10.1639/0007-2745-125.2.380
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来源期刊
Bryologist
Bryologist 生物-植物科学
CiteScore
2.40
自引率
11.10%
发文量
40
审稿时长
>12 weeks
期刊介绍: The Bryologist is an international journal devoted to all aspects of bryology and lichenology, and we welcome reviews, research papers and short communications from all members of American Bryological and Lichenological Society (ABLS). We also publish lists of current literature, book reviews and news items about members and event. All back issues of the journal are maintained electronically. The first issue of The Bryologist was published in 1898, with the formation of the Society. Author instructions are available from the journal website and the manuscript submission site, each of which is listed at the ABLS.org website. All submissions to the journal are subject to at least two peer reviews, and both the reviews and the identities of reviewers are treated confidentially. Reviewers are asked to acknowledge possible conflicts of interest and to provide strictly objective assessments of the suitability and scholarly merit of the submissions under review.
期刊最新文献
Ramalea and the new genus Appressodiscus belong in the Ramalinaceae A chemistry overview of the beautiful miniature forest known as mosses Recent literature on lichens—269 Recent literature on bryophytes — 126(2) Common Mosses, Liverworts, and Lichens of Ohio: A Visual Guide – A field companion for the cryptogam naturalist
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