Hostname: page-component-78c5997874-94fs2 Total loading time: 0 Render date: 2024-11-18T00:13:50.331Z Has data issue: false hasContentIssue false

Lichenology in Africa

Published online by Cambridge University Press:  29 November 2022

Abstract

Type
Editorial
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of the British Lichen Society

In the past three years The Lichenologist has published c. 90 papers but only four of these were based on African material. Two of these were physiological papers co-authored by one of us (RB), whereas the other two were taxonomic and described new species from South Africa and Kenya. This contrasts dramatically with the 31 papers based on European material. Given the relative sizes of the continents and the diversity of habitats in Africa – from Mediterranean biomes in the north and far south, through deserts, tropical rainforests and savannah to temperate biomes in the south, and from sea level to alpine regions – this is an exceedingly poor return. Even within Africa, the distribution is uneven with three of the four papers being based on South African material, one on Kenyan, and none on western or northern material.

The history of lichenology in Africa dates back at least as far as Linnaeus. Johann König, a pupil of Linnaeus, visited Cape Town on his way to India in 1768 and made several collections, including the type collection of Lichen chrysophtalmos (Linnaeus Reference Linnaeus1771), which we now know as Teloschistes chrysophthalmos [as chrysophthalmus]. However, the first collector to spend any time collecting lichens in southern Africa was Carl Pehr Thunberg between 1772–1775 who, although based in Cape Town, travelled extensively in the interior (Thunberg Reference Thunberg1794). In the following 150 years, a number of local collectors became active, including Miss [Olivia?] Armstrong and Peter MacOwen, while European visitors such as Josef Brunnthaler and Friedrich Wilms made extensive expeditions into the interior. Their collections were, of course, taken back to Europe and deposited in European herbaria (LUND, G, W, ZT, etc) and many were described as new species by Johannes Müller (Reference Müller1885–1888), Edvard Vainio (e.g. Vainio Reference Vainio1901, Reference Vainio1926), Alexander Zahlbruckner (e.g. Zahlbruckner Reference Zahlbruckner1926, Reference Zahlbruckner1932, Reference Zahlbruckner1936) and especially Ernst Stizenberger in his Lichenaea Africana (Stizenberger Reference Stizenberger1890, Reference Stizenberger1891). These early collectors were primarily botanists who also collected other groups and more details of their activities can be found on the Biographical Database of Southern African Science (http://www.s2a3.org.za/bio/Main.php).

In the early 20th century Paul Andries van der Byl collected lichens extensively (van der Byl Reference van der Byl1933a, Reference van der Bylb, Reference van der Byl1935a, Reference van der Bylb), and in 1950 Ethel Doidge included lichens in her monumental compendium of southern African fungi (Doidge Reference Doidge1950). Subsequently, between 1956–1991, Ove Almborn issued six fascicles (150 collections) of an exsiccate, Lichenes Africani, and also published several other papers on African lichens (Almborn Reference Almborn1966, Reference Almborn1987, Reference Almborn1988, Reference Almborn1989). However, the first person based in South Africa to concentrate on the lichens of southern Africa was Franklin Brusse of SANBI, Pretoria who, between 1984–1994, published c. 40 papers describing taxonomic novelties from South Africa and Namibia. Although his main interest was in Parmelia s. lat., describing numerous new species and making many new combinations, he also described many new species and nine new genera across a wide range of families (e.g. Brusse Reference Brusse1985a, Reference Brusseb, Reference Brusse1987a, Reference Brusseb, Reference Brussec, Reference Brussed, Reference Brusse1988a, Reference Brusseb, Reference Brusse1994). More recently, one of us (AF) has published an updated checklist of South African lichens (Fryday Reference Fryday2015).

Luciana Zedda and co-workers have carried out some important work on terricolous lichen communities in Namibia and NW South Africa (e.g. Zedda & Rambold Reference Zedda and Rambold2009; Zedda et al. Reference Zedda, Schultz and Rambold2009, Reference Zedda, Kong and Rambold2011a, Reference Zedda, Gröngröft, Schultz, Petersen, Mills and Ramboldb) but otherwise the ecology of southern African lichens is poorly studied.

Lichenological exploration in eastern Africa started in the mid-1800s, with collectors mainly comprised of explorers, missionaries and European visitors with an interest in nature. The earliest collector in the region is perhaps W. G. Schimper who collected in Ethiopia in the 1840s. Other personalities who made small lichen collections from different parts of East Africa in the late part of the 19th century were Marquess Antinori, O. Beccari, J. Hannington, J. M. Hildebrandt, R. L. von Hohnel, C. H. E. W. Holst, H. H. Johnstone, W. Last, H. Meyer and G. Thomson, who made collections in Tanzania and Zanzibar. Prince Heinrich of Liechtenstein, Dr Pospischill and A. K. Ritter collected in Kenya and Tanzania and G. F. Scott Elliot collected in the Ruwenzori Mountains in Uganda. These collections were reported in several works (Baglietto Reference Baglietto1875; Krempelhuber Reference Krempelhuber1877; Stirton Reference Stirton1877–1878; Jatta Reference Jatta1882; Müller Reference Müller1885–1888, Reference Müller1890, Reference Müller1893, Reference Müller1894; Stein Reference Stein1889; Steiner Reference Steiner1897; Vainio Reference Vainio1898).

In the early 1900s, collectors comprised both amateur and professional botanists. Amongst these were J. Brunnthaler, B. Fink, L. Hauman, G. Lindau, R. A. Maas Geesteranus, Józef Motyka, Vicomte de Poncins, R. Pichi Sermolli, Professor Senni, B. Schroder, R. Wettstein and the Reverend Fathers of Consolata Missions. Results of these collections were published in several papers (Jatta Reference Jatta1908, Reference Jatta and Roccati1909; Lindau Reference Lindau and Mildbraed1911; Hue Reference Hue1916; Zahlbruckner Reference Zahlbruckner1926, Reference Zahlbruckner1932; Zahlbruckner & Hauman Reference Zahlbruckner and Hauman1936; Cengia Sambo Reference Cengia1937, Reference Cengia1938, Reference Cengia1939; Maas Geesteranus Reference Maas Geesteranus1955; Motyka Reference Motyka1961) and later summarized in treatments of tropical lichens from Africa by Carroll Dodge (Reference Dodge1953, Reference Dodge1956, Reference Dodge1957, Reference Dodge1959, Reference Dodge1964, Reference Dodge1971).

In the 1970s, Hildur Krog and Dougal Swinscow collected intensively in East Africa, their collections culminating in the publication of ‘Macrolichen Flora of East Africa’ (Swinscow & Krog Reference Swinscow and Krog1988). Subsequent excursions by other lichenologists greatly increased the knowledge of the East African lichen biota (Sérusiaux Reference Sérusiaux1978, Reference Sérusiaux1979, Reference Sérusiaux1981, Reference Sérusiaux1984a, Reference Sérusiauxb, Reference Sérusiaux1989; Ahti et al. Reference Ahti, Krog and Swinscow1987; Almborn Reference Almborn1989; Elix Reference Elix2002; Lücking & Kalb Reference Lücking and Kalb2002; Jørgensen Reference Jørgensen2003; Kalb Reference Kalb2004, Reference Kalb2007, Reference Kalb2008; Alstrup & Aptroot Reference Alstrup and Aptroot2005; Killmann & Fischer Reference Killmann and Fischer2005; Sérusiaux & Diederich Reference Sérusiaux and Diederich2005; Frisch et al. Reference Frisch2006; Sérusiaux et al. Reference Sérusiaux, Fischer and Killmann2006; Bock et al. Reference Bock, Hauck and Fischer2007; Yeshitela Reference Yeshitela2008; Archer et al. Reference Archer, Elix, Fischer, Killmann and Sérusiaux2009; Frisch & Tibell Reference Frisch and Tibell2010). For the last two decades one of us (PK) has been collecting in Kenya and has updated the Kenyan lichen checklist, which will soon be published.

Elsewhere on the continent, North African lichenology has a long history, dating back to 1798 in Algeria. Checklists have recently been prepared for Algeria (Amrani et al. Reference Amrani, Nacer, Noureddine and Seaward2015, Reference Amrani, Seaward, Sipman and Feuerer2018) and Tunisia (Seaward et al. Reference Seaward, Khadhri and Amrani2021) and there have been some inventories carried out in Morocco (Mohamed et al. Reference Mohamed, Mohammed and Abdelhay2021) and Egypt (Hegazy Reference Hegazy2012). Unfortunately, recent references to the ecology, physiology or taxonomy of West African lichens are less easy to locate.

There have been very few studies on the ecophysiology and physiology of African lichens. Even the potential for using African lichens medicinally has received little attention (Adenubi et al. Reference Adenubi, Famuyide, McGaw and Eloff2022). This is probably because there are relatively few physiologists that are familiar with lichenology on the staff of African universities, a problem that also extends into other subject areas. Furthermore, in Africa there are relatively few truly unique (physiologically speaking) habitats that would tempt lichenologists from the rest of the world to visit for research purposes. However, within southern Africa there are vast areas dominated by soil crust communities, within which lichens often play an important role. Thanks to the studies of Lucinda Zedda, Burkhart Büdel and their colleagues, progress has been made on characterizing these ecologically important systems (see references above, and Büdel et al. (Reference Büdel, Darienko, Deutschewitz, Dojani, Friedl, Mohr, Salisch, Reisser and Weber2009)), but disappointingly their physiology remains to be investigated. Within this ‘biome’ there is a rather exceptional sub-type, that of the ‘desert fog’ lichens. Outside southern Africa, these communities are found only in a small number of places, namely California, the Peruvian coast and the Negev Desert in Israel. Otto Lange and his co-workers (Lange et al. Reference Lange, Meyer, Ullmann and Zellner1991, Reference Lange, Green, Melzer, Meyer and Zellner2006, Reference Lange, Green, Melzer, Meyer and Zellner2007) elegantly demonstrated the remarkable ability of some Namibian desert ‘fog’ lichens to achieve net photosynthesis with non-liquid water. This work was continued by Maphangwa et al. (Reference Maphangwa, Musil, Raitt and Zedda2012a), who initiated discussion on the important question of the likely impact of climate change on these lichens (Maphangwa et al. Reference Maphangwa, Musil, Raitt and Zedda2012b).

For the last 30 years, one of us (RB) has studied various aspects of the stress physiology of lichens. Although much of this work could have been carried out using lichens from anywhere in the world, in recent years work has focused on lichens from the Afromontane vegetation. The study of Mkhize et al. (Reference Mkhize, Minibayeva and Beckett2022: this issue) compared the ‘quenching’ characteristics of photosynthesis in ‘sun’ and ‘shade’ collections of the same species of Afromontane lichens. Results suggest that Afromontane lichen photobionts can flexibly adjust the amount and type of their quenching.

It is to be hoped that in future more scientists will be prompted to study lichen physiology in Africa. What makes lichens special, and arguably separates them from the vast majority of other photosynthetic organisms, is their desiccation tolerance, and this holds innovative potential. Once the molecular mechanisms have been elucidated, technologies can be used to transfer genes for stress tolerance to crop plants (Farrant & Hilhorst Reference Farrant and Hilhorst2022). These studies are of great importance, since Africa is predicted to bear the brunt of future climate change which will no doubt increase abiotic stress and challenge the security of food production.

The present volume is an attempt to bring African lichens and lichenology to the attention of the wider community, while at the same time promoting the study of lichens and lichenology within the continent itself. In this issue, Kaasalainen et al. study the diversity of the genus Peltigera on Mt Kilimanjaro in Tanzania and report eight species including the new species, P. alkalicola; Kirika et al. show that the pantropical species Canoparmelia texana consists of two independent lineages, both of which occur in Kenya; Medeiros & Lutzoni provide a modern treatment of the Graphidaceae genera with hyaline ascospores in South Africa, describing one new species, Allographa oldayana, making two new combinations and reporting 11 other species as new to South Africa; Nadel & Clerc provide notes on the genus Usnea from the islands of São Tomé and Príncipe in tropical West Africa, reporting 15 taxa, of which two, U. beckeri and U. longiciliata, are described as new to science; Temu et al. investigate the molecular, morphological and chemical variation of the Usnea pectinata aggregate in Tanzania, and São Tomé and Príncipe; Farkas & Muhoro present an identification key for parmelioid taxa in Kenya; Mkhize et al. investigate the adaptions of photosynthesis in sun and shade in populations of some Afromontane lichens (see above) and Kitara et al. examine the distribution pattern and host tree specificity of Lobaria pulmonaria in tropical montane forest landscapes in Tanzania. Finally, Aptroot reviews a book on foliicolous lichens and their lichenicolous fungi in Macaronesia and Atlantic Europe authored by van den Boom.

To the best of our knowledge, there are no research groups in Africa (or anywhere else for that matter) focused on the systematics or ecology of African lichens, but we know that interest exists because of our own personal experience and the number of posts on social media requesting help with identifications. However, the lack of field guides and local experts means that getting started is an almost impossible task. Additionally, most of the hundreds of species described by Stizenberger, Zahlbruckner and others have not been reported since and are known only from their type collection, and these collections are in European herbaria. Consequently, anyone attempting to find the correct name for an unknown collection is left with the thankless task of trawling through the protologues of numerous possible taxa, which invariably lack the detailed information necessary to make a positive identification.

In spite of the recent activity in southern and eastern Africa, as elsewhere on the continent, large parts of these regions still remain underexplored and the lichen biota urgently requires revision to fully understand its diversity and biogeography, especially with the use of molecular tools. However, as can be seen from the contributions to this volume, the potential for exciting new discoveries on the continent is enormous and we hope this special issue will be a springboard to future work.

References

Adenubi, OT, Famuyide, IM, McGaw, LJ and Eloff, JN (2022) Lichens: an update on their ethnopharmacological uses and potential as sources of drug leads. Journal of Ethnopharmacology 298, 115657.CrossRefGoogle ScholarPubMed
Ahti, T, Krog, H and Swinscow, TDV (1987) New or otherwise interesting Cladonia species in East Africa. Annales Botanici Fennici 24, 8594.Google Scholar
Almborn, O (1966) Revision of some lichen genera in southern Africa I. Botaniska Notiser 119, 70112.Google Scholar
Almborn, O (1987) Lichens at high altitudes in southern Africa. Bibliotheca Lichenologica 25, 401417.Google Scholar
Almborn, O (1988) Some distribution patterns in the lichen flora of South Africa. Monographs in Systematic Botany from the Missouri Botanical Garden 25, 429432.Google Scholar
Almborn, O (1989) Revision of the lichen genus Teloschistes in central and southern Africa. Nordic Journal of Botany 8, 521537.CrossRefGoogle Scholar
Alstrup, V and Aptroot, A (2005) Pyrenocarpous lichens from Tanzania and Kenya. Cryptogamie, Mycologie 26, 265271.Google Scholar
Amrani, S, Nacer, A, Noureddine, N-E and Seaward, MRD (2015) Lichenological exploration of Algeria: historical overview and annotated bibliography, 1799–2013. Willdenowia 45, 1534.CrossRefGoogle Scholar
Amrani, S, Seaward, MRD, Sipman, HJM and Feuerer, T (2018) Lichenological exploration of Algeria II: checklist of lichenized, lichenicolous and allied fungi. Herzogia 31, 817892.CrossRefGoogle Scholar
Archer, AW, Elix, JA, Fischer, E, Killmann, D and Sérusiaux, E (2009) The lichen genus Pertusaria (Ascomycota) in Central Africa (Congo/Kivu, Rwanda and Burundi) and western Kenya. Nova Hedwigia 88, 309333.CrossRefGoogle Scholar
Baglietto, F (1875) Lichenes in regione Bogos Abyssinia e septentrionalis lecti ab O. Beccari. Nuovo Giornale Botanico Italiano 7, 239254.Google Scholar
Bock, C, Hauck, M and Fischer, E (2007) The lichen flora of Rwanda: an annotated checklist. Willdenowia 37, 563575.CrossRefGoogle Scholar
Brusse, F (1985 a) Corynecystis, a new lichen genus from the Karoo, South Africa. Bothalia 15, 552553.CrossRefGoogle Scholar
Brusse, F (1985 b) Glyphopeltis (Lecideaceae), a new lichen genus from southern Africa. Lichenologist 17, 267268.CrossRefGoogle Scholar
Brusse, F (1987 a) Psathyrophlyctis, a new lichen genus from southern Africa. Bothalia 17, 182184.CrossRefGoogle Scholar
Brusse, FA (1987 b) Coronoplectrum, a new lichen genus from the Namib Desert, South West Africa/Namibia. Mycotaxon 28, 131135.Google Scholar
Brusse, FA (1987 c) Echidnocymbium (Biatoraceae), a new lichen genus from southern Africa. Mycotaxon 29, 173176.Google Scholar
Brusse, FA (1987 d) Schistoplaca (Lichenes, Biatoraceae), a new lichen genus. Mycotaxon 29, 245249.Google Scholar
Brusse, F (1988 a) Lithoglypha, a new lichen genus from Clarens Sandstone. Bothalia 18, 8996.CrossRefGoogle Scholar
Brusse, F (1988 b) Schizodiscus, a new porpidioid lichen genus from Drakensberg. Bothalia 18, 9496.CrossRefGoogle Scholar
Brusse, FA (1994) A remarkable new lichen genus Catarrhospora (Ascomycotina, Porpidiaceae), from Cape Floral Kingdom, South Africa. Mycotaxon 52, 501512.Google Scholar
Büdel, B, Darienko, T, Deutschewitz, K, Dojani, S, Friedl, T, Mohr, K, Salisch, M, Reisser, W and Weber, B (2009) Southern African biological soil crusts are ubiquitous and highly diverse in drylands, being restricted by rainfall frequency. Microbial Ecology 57, 229247.CrossRefGoogle ScholarPubMed
Cengia, Sambo M (1937) Lichenes Africae Orientalis Italicae. Nuovo Giornale Botanico Italiano 44, 456483.Google Scholar
Cengia, Sambo M (1938) Licheni del Kenia e del Tanganica raccolti dai Rev. Padri della consolata. Nuovo Giornale Botanico Italiano 45, 364387.Google Scholar
Cengia, Sambo M (1939) Licheni dell'A.O.I. [Africa Orientale Italiana]. Raccolti dal Console Prof. Senni e dal Centurione ing. Giordano ufficiali della Milizia Naz. Forestale di Addis Abeba nel 1937. Nuovo Giornale Botanico Italiano 46, 437455.Google Scholar
Dodge, CW (1953) Some lichens from tropical Africa. Annals of the Missouri Botanical Garden 40, 271401.CrossRefGoogle Scholar
Dodge, CW (1956) Some lichens of tropical Africa. II. Usnea. Annals of the Missouri Botanical Garden 43, 381396.CrossRefGoogle Scholar
Dodge, CW (1957) Some lichens of tropical Africa. II. Usnea (Continued). Annals of the Missouri Botanical Garden 44, 176.CrossRefGoogle Scholar
Dodge, CW (1959) Some lichens of tropical Africa. III. Parmeliaceae. Annals of the Missouri Botanical Garden 46, 39193.CrossRefGoogle Scholar
Dodge, CW (1964) Some lichens of tropical Africa. IV. Dermatocarpaceae to Pertusariaceae. Beihefte zur Nova Hedwigia 12, 1282.Google Scholar
Dodge, CW (1971) Some lichens of tropical Africa. V. Lecanoraceae to Physciaceae. Beihefte zur Nova Hedwigia 38, 1225.Google Scholar
Doidge, EM (1950) The South African fungi and lichens to the end of 1945. Bothalia 5, 11094.Google Scholar
Elix, JA (2002) New species of Xanthoparmelia (lichenized Ascomycotina, Parmeliaceae) from Africa. Lichenologist 34, 283291.CrossRefGoogle Scholar
Farrant, JM and Hilhorst, H (2022) Crops for dry environments. Current Opinion in Biotechnology 74, 8491.CrossRefGoogle ScholarPubMed
Frisch, A (2006) Contributions towards a new systematics of the lichen family Thelotremataceae I. The lichen family Thelotremataceae in Africa. Bibliotheca Lichenologica 92, 3370.Google Scholar
Frisch, A and Tibell, L (2010) New data on crustose mazaediate lichens from tropical Africa. Bibliotheca Lichenologica 104, 323332.Google Scholar
Fryday, AM (2015) A new checklist of lichenised, lichenicolous and allied fungi reported from South Africa. Bothalia 45, a148.Google Scholar
Hegazy, TA (2012) A new lichen record at Ain Quraychat, Siwa Oasis, Egypt. Catrina 7, 7985.Google Scholar
Hue, A-M (1916) Lichenes Poncinsianos in Africa tropico-orientali anglica a Vicecomite de Poncins anno 1912 lectos elaboravit. Memoire de la Societé Botanique de France 28, 124.Google Scholar
Jatta, A (1882) Licheni africani raccolti nello Scioa dal Marchese Antinori. Nuovo Giornale Botanico Italiano 14, 169175.Google Scholar
Jatta, A (1908) Species novae in excelsis Ruwenzori in expeditione Ducis Aprutii lectae. Annali di Botanica 6, 407409.Google Scholar
Jatta, A (1909) Licheni del Ruwenzori. In Roccati, A (ed.), Il Ruwenzori, Parte Scientifica Vol. 1., Zoologia e Botanica. Milano: Ulrico Hoepli, pp. 537547.Google Scholar
Jørgensen, PM (2003) Notes on African Pannariaceae (lichenized ascomycetes). Lichenologist 35, 1120.CrossRefGoogle Scholar
Kalb, K (2004) New or otherwise interesting lichens II. Bibliotheca Lichenologica 88, 301329.Google Scholar
Kalb, K (2007) New or otherwise interesting lichens III. Bibliotheca Lichenologica 95, 297316.Google Scholar
Kalb, K (2008) New or otherwise interesting lichens. IV. Sauteria 15, 239248.Google Scholar
Killmann, D and Fischer, E (2005) New records for the lichen flora of Rwanda, East Africa. Willdenowia 35, 193204.CrossRefGoogle Scholar
Krempelhuber, A (1877) Neue Beiträge zu Afrika's Flechten-Flora. Linnaea 41, 135144.Google Scholar
Lange, OL, Meyer, A, Ullmann, I and Zellner, H (1991) Microclimate conditions, water content and photosynthesis of lichens in the coastal fog zone of the Namib Desert: measurements in the fall. Flora 185, 133266.Google Scholar
Lange, OL, Green, TGA, Melzer, B, Meyer, A and Zellner, H (2006) Water relations and CO2 exchange of the terrestrial lichen Teloschistes capensis in the Namib fog desert: measurements during two seasons in the field and under controlled conditions. Flora 201, 268280.CrossRefGoogle Scholar
Lange, OL, Green, TGA, Melzer, B, Meyer, A and Zellner, H (2007) Water relations and carbon dioxide exchange of epiphytic lichens in the Namib fog desert. Flora 202, 479487.CrossRefGoogle Scholar
Lindau, G (1911) Lichenes. In Mildbraed, J (ed.), Wissenschaftliche Ergebnisse der Deutschen Zentral-Afrika-Expedition 1907–1908 unter Führung Adolf Friedrichs, Herzog zu Mecklenburg. II, Botanik. Leipzig: Klinckhardt & Biermann, pp. 101110.Google Scholar
Linnaeus, C (1771) Mantissa Plantarum II. Holmiae: Laurentius Salvius.Google Scholar
Lücking, R and Kalb, K (2002) New species and further additions to the foliicolous lichen flora of Kenya (East Africa), including the first lichenicolous Aulaxina (Ostropales: Gomphillaceae). Botanical Journal of the Linnean Society 139, 171180.CrossRefGoogle Scholar
Maas Geesteranus, RA (1955) Some lichenological observations in Kenya. Webbia 11, 519523.CrossRefGoogle Scholar
Maphangwa, KW, Musil, CF, Raitt, L and Zedda, L (2012 a) Differential interception and evaporation of fog, dew and water vapour and elemental accumulation by lichens explain their relative abundance in a coastal desert. Journal of Arid Environments 82, 7180.CrossRefGoogle Scholar
Maphangwa, KW, Musil, CF, Raitt, L and Zedda, L (2012 b) Experimental climate warming decreases photosynthetic efficiency of lichens in an arid South African ecosystem. Oecologia 169, 257268.CrossRefGoogle Scholar
Mkhize, KGW, Minibayeva, F and Beckett, RP (2022) Adaptions of photosynthesis in sun and shade in populations of some Afromontane lichens. Lichenologist 54, 319329.CrossRefGoogle Scholar
Mohamed, E, Mohammed, L and Abdelhay, EG (2021) Study of lichens of the Moroccan Atlantic Coast Safi-Essaouira: bioindication of climate disturbances and nitrogen pollution. International Journal of Science and Research 10, 696703.Google Scholar
Motyka, J (1961) Usneae a R. A. Maas Geesteranus in Africa orientali et australi anno 1949 collectae. Persoonia 1, 415431.Google Scholar
Müller, J (1885–1888) Lichenologische Beiträge XXI–XXX. Flora (Regensburg) 68–71.Google Scholar
Müller, J (1890) Lichenes Africae tropico-orientalis. Flora (Regensburg) 73, 334347.Google Scholar
Müller, J (1893) Lichenes africani. Botanische Jahrbücher fur Systematik, Pflanzengeschichte und Pflanzengeographie 19, 505510.Google Scholar
Müller, J (1894) Lichenes usambarenses. Botanische Jahrbücher fur Systematik, Pflanzengeschichte und Pflanzengeographie 20, 238298.Google Scholar
Seaward, MRD, Khadhri, A and Amrani, S (2021) Checklist of the lichens and lichenicolous fungi of Tunisia. Herzogia 34, 400427.CrossRefGoogle Scholar
Sérusiaux, E (1978) Contribution à l'étude des lichens du Kivu (Zaïre), du Rwanda et du Burundi II. Espèces nouvelles de lichens foliicoles. Lejeunia 90, 118.Google Scholar
Sérusiaux, E (1979) Contribution à l'étude des lichens du Kivu (Zaïre), du Rwanda et du Burundi IV. Le genre Stereocaulon. Revue Bryologique et Lichénologique 45, 143.Google Scholar
Sérusiaux, E (1981) Contribution à l'étude des lichens du Kivu (Zaïre), du Rwanda et du Burundi VI. Les genres Coccocarpia Pers. et Lobaria (Schreb.) Hoffm. Cryptogamie, Bryologie, Lichénologie 2, 461469.Google Scholar
Sérusiaux, E (1984 a) Contribution à l'étude des lichens du Kivu (Zaïre), du Rwanda et du Burundi VIII. New and interesting species of parmeliaceous lichens. Bryologist 87, 111.CrossRefGoogle Scholar
Sérusiaux, E (1984 b) New species or interesting records of foliicolous lichens. Mycotaxon 20, 283306.Google Scholar
Sérusiaux, E (1989) Echinoplaca furcata, a new species of foliicolous lichen (Gomphillaceae) from Rwanda. Mycotaxon 35, 237242.Google Scholar
Sérusiaux, E and Diederich, P (2005) Lambinonia, a new genus for Melanconium strigulae, a lichenicolous hyphomycete on foliicolous species of Strigula. Lichenologist 37, 499506.CrossRefGoogle Scholar
Sérusiaux, E, Fischer, E and Killmann, D (2006) Nyungwea, a new genus of lichen with goniocyst-producing stipes from Rwanda and Uganda (E Africa). Lichenologist 38, 115121.CrossRefGoogle Scholar
Stein, B (1889) Ueber afrikanische Flechten. Jahres-Bericht der Schlesischen Gesellschaft für Vaterländische Cultur 66, 133142.Google Scholar
Steiner, J (1897) Flechten aus Britisch-Ostafrika. Sitzungsberichte, Akademie der Wissenschaften in Wien. Mathematisch-Naturwissenschaftliche Klasse 106, 207234.Google Scholar
Stirton, J (1877–1878) On certain lichens belonging to the genus Parmelia. Scottish Naturalist 4, 200203.Google Scholar
Stizenberger, E (1890) Lichenaea Africana. Bericht uber die Thätigkeit der St. Gallischen, Naturwissenschaftlichen Gesellschaft 1888–89, 105249.Google Scholar
Stizenberger, E (1891) Lichenaea Africana. Bericht uber die Thätigkeit der St. Gallischen, Naturwissenschaftlichen Gesellschaft 1889–90, 133268.Google Scholar
Swinscow, TDV and Krog, H (1988) Macrolichens of East Africa. London: British Museum (Natural History).Google Scholar
Thunberg, CP (1794) Prodromus Plantarum Capensium, quas in Promontorio Bonae Spei Africes Annis 1772–1775 Collegit. Upsaliae: Edman.CrossRefGoogle Scholar
Vainio, EA (1898) Lichenes a G. F. Scott-Elliot in viciniis montis Ruwenzori in Africa centrali annis 1893–94 collecti. Beiblatt zur Hedwigia 37, 3944.Google Scholar
Vainio, E (1901) Lichenes. In Catalogue of the African Plants Collected by Dr Friedrich Welwitsch in 1853–61, Vol. 2, pt. 2 Cryptogamia. London: British Museum (Natural History), pp. 396463.Google Scholar
Vainio, E (1926) Lichenes Africani novi. Annales Universitatis Fennicae Åboensis, Series A 2(3), 133.Google Scholar
van der Byl, PA (1933 a) Korsmosse van die Unie van Suid-Afrika. I. Familie Roccellaceae. II. Familie Teloschistaceae. Annals of the University of Stellenbosch 11A (6), 118.Google Scholar
van der Byl, PA (1933 b) Korsmosse van die Unie van Suid-Afrika. III. Familie Cladoniaceae. Annals of the University of Stellenbosch 11A (4), 114.Google Scholar
van der Byl, PA (1935 a) Korsmosse van die Unie van Suid-Afrika. IV. Die geslag Ramalina. Annals of the University of Stellenbosch 13A (1), 118.Google Scholar
van der Byl, PA (1935 b) Korsmosse van die Unie van Suid-Afrika. V. Familie Collemaceae. Annals of the University of Stellenbosch 13A (4), 113.Google Scholar
Yeshitela, K (2008) Effects of anthropogenic disturbance on the diversity of foliicolous lichens of East Africa: Goder (Ethiopia), Budongo (Uganda) and Kakamega (Kenya). Ph.D. thesis, University of Koblenz-Landau.Google Scholar
Zahlbruckner, A (1926) Afrikanische Flechten (Lichenes). Botanische Jahrbücher fur Systematik, Pflanzengeschichte und Pflanzengeographie 60, 468552.Google Scholar
Zahlbruckner, A (1932) Lichenes in Africa lecti. Annales de Cryptogamie Exotique 5, 198275.Google Scholar
Zahlbruckner, A (1936) Neue Flechten, XII. Annales Mycologici 34, 159179.Google Scholar
Zahlbruckner, A and Hauman, L (1936) Les lichens des hautes altitudes au Ruwenzori. Mémoires de l'Institut Royal Colonial Belge, Section des Sciences Naturelles et Médicales 5, 131.Google Scholar
Zedda, L and Rambold, G (2009) Diversity and ecology of soil lichens in the Knersvlakte (South Africa). Bryologist 112, 1929.CrossRefGoogle Scholar
Zedda, L, Schultz, M and Rambold, G (2009) Diversity of epiphytic lichens in the savannah biome of Namibia. Herzogia 22, 153164.Google Scholar
Zedda, L, Kong, S-M and Rambold, G (2011 a) Morphological groups as a surrogate for soil lichen biodiversity in Southern Africa. Bibliotheca Lichenologica 106, 391408.Google Scholar
Zedda, L, Gröngröft, A, Schultz, M, Petersen, A, Mills, A and Rambold, G (2011 b) Distribution patterns of soil lichens across the principal biomes of southern Africa. Journal of Arid Environments 75, 215220.CrossRefGoogle Scholar