Crustose lichens with lichenicolous fungi from Paleogene amber

被引:7
作者
Kaasalainen, Ulla [1 ]
Kukwa, Martin [2 ]
Rikkinen, Jouko [3 ,4 ]
Schmidt, Alexander R. [1 ]
机构
[1] Univ Gottingen, Dept Geobiol, Goldschmidtstr 3, D-37077 Gottingen, Germany
[2] Univ Gdansk, Fac Biol, Dept Plant Taxon & Nat Conservat, Wita Stwosza 59, PL-80308 Gdansk, Poland
[3] Univ Helsinki, Finnish Museum Nat Hist, POB 7, FIN-00014 Helsinki, Finland
[4] Univ Helsinki, Fac Biol & Environm Sci, Organismal & Evolutionary Biol Res Programme, POB 65, FIN-00014 Helsinki, Finland
来源
SCIENTIFIC REPORTS | 2019年 / 9卷 / 1期
关键词
GENUS OCHROLECHIA; FORMING ASCOMYCOTA; CALICIOID LICHENS; CLASSIFICATION; EVOLUTION; FOSSIL; ARTHONIACEAE; ROCCELLACEAE; LECANORALES; PHYLOGENY;
D O I
10.1038/s41598-019-46692-w
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Lichens, symbiotic consortia of lichen-forming fungi and their photosynthetic partners have long had an extremely poor fossil record. However, recently over 150 new lichens were identified from European Paleogene amber and here we analyse crustose lichens from the new material. Three fossil lichens belong to the extant genus Ochrolechia (Ochrolechiaceae, Lecanoromycetes) and one fossil has conidiomata similar to those produced by modern fungi of the order Arthoniales (Arthoniomycetes). Intriguingly, two fossil Ochrolechia specimens host lichenicolous fungi of the genus Lichenostigma (Lichenostigmatales, Arthoniomycetes). This confirms that both Ochrolechia and Lichenostigma already diversified in the Paleogene and demonstrates that also the specific association between the fungi had evolved by then. The new fossils provide a minimum age constraint for both genera at 34 million years (uppermost Eocene).
引用
收藏
页数:7
相关论文
共 52 条
  • [1] Microbial cargo: do bacteria on symbiotic propagules reinforce the microbiome of lichens?
    Aschenbrenner, Ines Aline
    Cardinale, Massimiliano
    Berg, Gabriele
    Grube, Martin
    [J]. ENVIRONMENTAL MICROBIOLOGY, 2014, 16 (12) : 3743 - 3752
  • [2] Estimating the Phanerozoic history of the Ascomycota lineages: Combining fossil and molecular data
    Beimforde, Christina
    Feldberg, Kathrin
    Nylinder, Stephan
    Rikkinen, Jouko
    Tuovila, Hanna
    Doerfelt, Heinrich
    Gube, Matthias
    Jackson, Daniel J.
    Reitner, Joachim
    Seyfullah, Leyla J.
    Schmidt, Alexander R.
    [J]. MOLECULAR PHYLOGENETICS AND EVOLUTION, 2014, 78 : 386 - 398
  • [3] Blumenstengel H., 2004, EXKURS F VEROFFTL DG, V224, P17
  • [4] STUDIES IN THE LICHEN GENUS OCHROLECHIA .2. CORTICOLOUS SPECIES OF NORTH-AMERICA
    BRODO, IM
    [J]. CANADIAN JOURNAL OF BOTANY-REVUE CANADIENNE DE BOTANIQUE, 1991, 69 (04): : 733 - 772
  • [5] STUDIES OF THE LICHEN GENUS OCHROLECHIA .1. A NEW CLASSIFICATION FOR PERTUSARIA-SUBPLICANS AND PERTUSARIA-RHODOLEUCA
    BRODO, IM
    [J]. CANADIAN JOURNAL OF BOTANY-REVUE CANADIENNE DE BOTANIQUE, 1988, 66 (07): : 1264 - 1269
  • [6] Phylogenetic generic classification of parmelioid lichens (Parmeliaceae, Ascomycota) based on molecular, morphological and chemical evidence
    Crespo, Ana
    Kauff, Frank
    Divakar, Pradeep K.
    del Prado, Ruth
    Perez-Ortega, Sergio
    Amo de Paz, Guillermo
    Ferencova, Zuzana
    Blanco, Oscar
    Roca-Valiente, Beatriz
    Nunez-Zapata, Jano
    Cubas, Paloma
    Argueello, Arturo
    Elix, John A.
    Esslinger, Theodore L.
    Hawksworth, David L.
    Millanes, Ana
    Carmen Molina, M.
    Wedin, Mats
    Ahti, Teuvo
    Aptroot, Andre
    Barreno, Eva
    Bungartz, Frank
    Calvelo, Susana
    Candan, Mehmet
    Cole, Mariette
    Ertz, Damien
    Goffinet, Bernard
    Lindblom, Louise
    Luecking, Robert
    Lutzoni, Francois
    Mattsson, Jan-Eric
    Ines Messuti, Maria
    Miadlikowska, Jolanta
    Piercey-Normore, Michele
    Rico, Victor J.
    Sipman, Harrie J. M.
    Schmitt, Imke
    Spribille, Toby
    Thell, Arne
    Thor, Goran
    Upreti, Dalip K.
    Lumbsch, H. Thorsten
    [J]. TAXON, 2010, 59 (06) : 1735 - 1753
  • [7] The 2018 classification and checklist of lichenicolous fungi, with 2000 non-lichenized, obligately lichenicolous taxa
    Diederich, Paul
    Lawrev, Tames D.
    Ertz, Damien
    [J]. BRYOLOGIST, 2018, 121 (03) : 340 - 425
  • [8] Using a temporal phylogenetic method to harmonize family- and genus-level classification in the largest clade of lichen-forming fungi
    Divakar, Pradeep K.
    Crespo, Ana
    Kraichak, Ekaphan
    Leavitt, Steven D.
    Singh, Garima
    Schmitt, Imke
    Lumbsch, H. Thorsten
    [J]. FUNGAL DIVERSITY, 2017, 84 (01) : 101 - 117
  • [9] Evolution of complex symbiotic relationships in a morphologically derived family of lichen-forming fungi
    Divakar, Pradeep K.
    Crespo, Ana
    Wedin, Mats
    Leavitt, Steven D.
    Hawksworth, David L.
    Myllys, Leena
    McCune, Bruce
    Randlane, Tiina
    Bjerke, Jarle W.
    Ohmura, Yoshihito
    Schmitt, Imke
    Boluda, Carlos G.
    Alors, David
    Roca-Valiente, Beatriz
    Del-Prado, Ruth
    Ruibal, Constantino
    Buaruang, Kawinnat
    Nunez-Zapata, Jano
    Amo de Paz, Guillermo
    Rico, Victor J.
    Carmen Molina, M.
    Elix, John A.
    Esslinger, Theodore L.
    Tronstad, Inger Kristin K.
    Lindgren, Hanna
    Ertz, Damien
    Gueidan, Cecile
    Saag, Lauri
    Mark, Kristiina
    Singh, Garima
    Dal Grande, Francesco
    Parnmen, Sittiporn
    Beck, Andreas
    Benatti, Michel Navarro
    Blanchon, Dan
    Candan, Mehmet
    Clerc, Philippe
    Goward, Trevor
    Grube, Martin
    Hodkinson, Brendan P.
    Hur, Jae-Seoun
    Kantvilas, Gintaras
    Kirika, Paul M.
    Lendemer, James
    Mattsson, Jan-Eric
    Ines Messuti, Maria
    Miadlikowska, Jolanta
    Nelsen, Matthew
    Ohlson, Jan I.
    Perez-Ortega, Sergio
    [J]. NEW PHYTOLOGIST, 2015, 208 (04) : 1217 - 1226
  • [10] Dunlop Jason A., 2010, P57
123456