Soil Ciliates (Protozoa, Ciliophora) from Namibia (Southwest Africa), with Emphasis on Two Contrasting Environments, the Etosha Region and the Namib Desert 
by
Wilhelm FOISSNER, Sabine AGATHA and Helmut BERGER

Published
by
Biologiezentrum des Oberösterreichischen Landesmuseums
J.-W.-Kleinstrasse 73, 4040 Linz, Austria, http://www.biologiezentrum.at

FOISSNER Wilhelm, AGATHA Sabine, and BERGER Helmut (2002): Soil ciliates (Protozoa, Ciliophora) from Namibia (Southwest Africa), with emphasis on two contrasting environments, the Etosha region and the Namib Desert. - Denisia 2: 1-1459 (two volumes). Hardcover. Vol. I 27.5 x 21.0 x 5.0 cm, >3000gram; Vol. II 27.5 x 21.0 x 2.5 cm, 1740 gram. Price 150 Euro.

ISSN 1608-8700

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Soil Ciliates (Protozoa, Ciliophora) from Namibia (Southwest Africa), with Emphasis on Two Contrasting Environments, the Etosha Region and the Namib Desert  by Foissner, Agatha and Berger 

About this book
Abstract:
A highly diverse ciliate community was found in 73 samples from terrestrial and semiterrestrial habitats of Namibia, Southwest Africa, one of the world's driest countries. The ciliates, respectively, their resting cysts, were re-activated from air-dried samples using the non-flooded Petri dish method. Species were determined by combining live observation, silver impregnation, and scanning electron microscopy.
A total of 365 species were identified, of which 128 (35 %) were undescribed, including a new order and suborder, three new families, and 33 new genera and subgenera. These new and many insufficiently known taxa, altogether more than 200 species and subspecies and over 300 populations, are described in the present monograph (see chapter 3.2.1 for a summary of names and nomenclatural acts); about 800 type slides have been deposited in the Museum of Upper Austria in Linz (Ll). Further, ontogenesis was investigated in 20 species.
The Namibian soil ciliate community shows some remarkable differences to the world community. Specifically, raptorious gymnostomatids and filamentous cyanobacteria feeding nassulids are over-represented, while hypotrichs and peritrichs are underrepresented. Nassulids obviously profit from the cyanobacteria covering wide areas of the Etosha region and the crust soils in the arid areas. Hypotrichs are more k- than r-selected and thus cannot develop optimally in the harsh Namibian climate. Likewise, the sandy soils are disadvantageous for sessile peritrichs. Generally, however, the Namibian soil ciliate biota are unexpectedly rich, that is, more diverse than those from central Europe, likely because they had at least 55 million years to evolve adapted populations and species. 200 of the 365 ciliate species identified occur at only one or two sites, showing a very patchy distribution of most species and a high proportion of possibly rare species. Most of the 11 most frequent (40 %) species are common in soils globally. except for Exocolpoda augustini, which is adapted to hyperarid conditions by a special life cycle and an extraordinarily thick-walled (dormant) resting cyst. Using total species numbers and the proportions of undescribed species, four local ciliate diversity centres were discovered: Etosha region (19 samples with 216 species, of which 61 were undescribed); dune sea Namib Desert (15 samples with 150 species, of which 32 were undescribed); Aloe dichotoma forest and Bukaos River floodplain near the town of Keetmanshoop (2 samples each with 11 new species); road puddles in the Bambatsi Guest Farm (1 sample with 126 identified and 15 unidentified species, of which at least 40 were undescribed).
We estimate that there are about 1000 soil ciliate species in Namibia, of which 350 are undescribed, including an unknown number of endemic species. Thus, our monograph contains only one third of the species actually living in the highly diverse terrestrial habitats of this country. We show that there must be many more free-living ciliate species globally than the 3000 estimated by some workers. Their estimation is flawed by biased literature evaluation, doubtful synonymies, unusual taxonomic practices and, partially, false theoretical concepts. Undersampling is the key to understanding protist diversity.
Key words: Adaptation, ciliate ecology, ciliate systematics, ciliate taxonomy, ciliate endemism, ciliate biodiversity, global number of free-living ciliates, neotypification, new species, ontogenesis, saline desert, dune desert, undersampling.

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Information: Obliquostoma Foissner, Agatha and Berger, 2002 established in the present book on page 115 is, unfortunately, a junior homonym of Obliquostoma Thoelen, 1970, a fossil bryozoan. Our name will be replaced in one of Foissner's next papers.

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Additional keywords: Ciliophora, morphogenesis, Hypotrichia, adaptation, ecology, systematics, endemism, salinity, Africa, soil biology, Namibia, desert, diversity, revision, Acaryophrya, Actinobolina, Afroamphisiella, Afrothrix, Amphisiella, Anatoliocirrus, Apertospathidium, Apobryophyllum, Apocolpodidium, Apocyclidium, Apoenchelys, Apospathidium, Apourosomoida, Arcuospathidium, Bakuella, Balantidioides, Bilamellophrya, Birojimia, Blepharisma, Bresslaua, Bryometopus, Bryophyllum, Bursaria, Chilodonella, Cinetochilum, Circinella, Clavoplites, Colpoda, Colpodidium, Condylostomides, Coriplites, Cyrtohymena, Cyrtolophosis, Deviata, Dileptus, Dioplitophrya, Diplites, Dragescozoon, Drepanomonas, Enchelaria, Enchelydium, Enchelyodon, Enchelyotricha, Enchelys, Epispathidium, Epistylis, Epitholiolus, Erimophrya, Eschaneustyla, Etoschophrya, Etoschothrix, Euplotopsis, Exocolpoda, Frontonia, Furgasonia, Fuscheria, Gastrostyla, Gonostomum, Grossglockneria, Halteria, Hausmanniella, Hemiamphisiella, Hemisincirra, Hemiurosoma, Holophrya, Holosticha, Holostichides, Homalogastra, Hypotricha, Hypotrichida, hypotrichs, Idiocolpoda, Ilsiella, Kahlilembus, Keronopsis, Kleinstyla, Kuehneltiella, Kuklikophrya, Lamtostyla, Leptopharynx, Litonotus, Maryna, Meseres, Metacineta, Metopus, Microdiaphanosoma, Monograph, Mykophagophrys, Nassula, Nassulides, Naxella, Nivaliella, Notoxoma, Nudiamphisiella, Obliquostoma, Odontochlamys, Opercularia, Orthoamphisiella, Ottowphrya, Oxytricha, Parabryophrya, Paracineta, Paraenchelys, Parafurgasonia, Paragastrostyla, Paragonostomum, Paraholosticha, Parakahliella, Pedohymena, Periholosticha, Perisincirra, Phialina, Phialinides, Plagiocampa, Plagiocampides, Platyophrya, Platyophryides, Plesiocaryon, Pleuroplites, Pleuroplitoides, Podophrya, Protocyclidium, Protospathidium, Pseudochilodonopsis, Pseudocohnilembus, Pseudocyrtolophosis, Pseudoholophrya, Pseudokreyella, Pseudomicrothorax, Pseudomonilicaryon, Pseudoplatyophrya, Pseudouroleptus, Pseudourostyla, Pseudovorticella, Pseudowoodruffia, Rostrophrya, Rostrophryides, Sagittaria, Sathrophilus, Semiplatyophrya, Semispathidium, Sikorops, Sorogena, Spathidium, Spetastyla, Sphaerophrya, Stammeridium, Sterkiella, Stichotrichia, Supraspathidium, Tachysoma, Tectohymena, Terricirra, Tetrahymena, Trachelophyllum, Trihymena, Uroleptus, Urosoma, Urosomoida, Vermioxytricha, Vorticella, Wallackia, Woodruffia, Woodruffides, Wüste

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© Berger Helmut, Consulting Engineering Office for Ecology, Radetzkystrasse 10, 5020 Salzburg, Austria; http://www.protozoology.com
Last update: 2007.10.15