Nematoda: Tylenchina) W

Nematoda: Tylenchina) W

Journal of Nematology 38(3):362–375. 2006. © The Society of Nematologists 2006. The Comparative Cellular Architecture of the Female Gonoduct Among Tylenchoidea (Nematoda: Tylenchina) W. Bert,M.Claeys,G.Borgonie Abstract: The cellular architecture of the female gonoduct of 68 nematode populations representing 42 species belonging to Tylenchidae, Belonolaimidae, Hoplolaimidae and Meloinema is shown to have an overall similarity in cellular gonoduct structure. The oviduct consists of two rows of four cells; the spermatheca is comprised of 10 to 20 cells, and the uterus cells, except in the case of Psilenchus, are arranged in four (Tylenchidae) or three (Belonolaimidae, Hoplolaimidae and Meloinema) regular rows. Although the genus Meloinema is classified within Meloidogynidae, its spermatheca is clearly hoplolaimid-like and lacks the spherical shape with lobe-like protruding cells typical of Meloidogyne. Detailed morphology of expelled gonoducts may provide a valuable character set in phylogenetic analysis, and the cellular morphology of the spermatheca appears to be a distinguishing feature at species level, especially in the genera Tylenchus and Geocenamus. Ultrastructural data on the oviduct-spermatheca region of Meloidogyne incognita complement light-microscopic (LM) results. The combination of LM of expelled organs and transmission electron microscopy (TEM) on selected sections is put forward as a powerful tool to combine three-dimensional knowledge with ultrastructural detail. Key words: Belonolaimidae, electron microscopy, gonoduct, Hoplolaimidae, Meloinema, morphology, taxonomy, TEM, Tylenchi- dae, ultrastructure The female reproductive system has been shown to plant-parasitic nematode taxa which often posses a de- be important in nematode systematics (Geraert, 1981, ceptively similar anatomical pattern. 1983), and the cellular morphology with respect to The objectives of this study were to achieve (i) a light- number and spatial arrangement of cells seems to be microscopic detailed gonoduct analysis of 68 popula- specific and constant for many nematodes species. De- tions of 42 species of Tylenchidae, Belonolaimidae and tailed examinations of the female reproductive system Hoplolaimidae in order to complete the knowledge of of free-living and plant-parasitic, as well as insect- the female gonoduct structure within the Tylenchoi- parasitic, nematodes have been undertaken (Geraert, dea, and to develop (ii) a complementary ultrastruc- 1973, 1976; Geraert et al., 1980a, 1980b; Chizhov, 1981; tural study of the oviduct-spermatheca region of Chizhov and Swiliam, 1986; Chizhov and Berezina, Meloidogyne incognita for improved insight in our LM- 1988a, 1988b). Recently, Bert et al. (2002, 2003) fo- obtained data and to clarify relationships. cused on the gonoduct structure of endoparasitic nematode families Pratylenchidae, Heteroderinae and Material and Methods the genus Meloidogyne. Analyzing the structure of ex- pelled gonoducts explores informative new morpho- Nematode species were obtained from soil samples logical comparative characters. Although molecular- or cultures (Table 1). Extraction and examination of based Tylenchoidea phylogenies are advancing (Sub- the female reproductive system was based on the botin et al., 2006), morphological characters may method of Geraert (1973), i.e., bisecting the specimen provide a valuable independent character set to be at the vulva region with a small scalpel-induced expul- mapped on molecular-based branches or to construct sion of gut and gonad. Nematodes were further pro- total-evidence phylogenies. Whereas the vastly superior cessed without removing nonreproductive tissue to resolution of an electron microscope has been shown avoid damage. The gonoduct expulsion procedure was to provide an improved phylogenetic signal (e.g., repeated until at least 20 preparations could be ob- Zhang and Baldwin, 2000; Baldwin et al., 2001), the served for each population (except as noted). Prepara- herein presented dissection technique generates new tions were either stained with acetic orcein (UCB, Leu- morphological data on a relatively less time expensive ven, Belgium, 2% aqueous solution of orcein in acetic base compared to transmission electron microscopy. acid) or observed directly in temporary mounts with Furthermore, additional morphological characters are the light microscope. By staining, a stronger differen- essential for a more substantiated differentiation of tiation of the nuclei is achieved, whereas without stain- ing, the general cell morphology is better preserved. The cellular morphology of the ovary was only partly (or not) studied with light microscopy, as it turned out Received for publication March 31, 2006 to be difficult to observe all structures; only the ripen- Nematology Unit, Department of Biology, Ghent University, Belgium. ing zone of the ovary contains distinct cells which could This work was supported by a research equipment grant of the Fund for Scientific Research—Flanders, Belgium (Grant 1.5.090.05 and 0194.03). The be visualised with the techniques used here. Two types authors thank D. G. Kim, E. Pourjam, P. De Ley, I. Tandingan De Ley, G. of light microscopes were used during this study: a Rei- Elbadri and G. Karssen for their generous supply of specimens or help in finding sample localities and W. Decraemer for critical reading and helpful chert Zetopan (Reichert-Leica, Vienna, Austria) and an comments. The anonymous reviewers are acknowledged for their valuable sug- Olympus BX 51 DIC (Olympus optical, Tokyo, Japan). gestions. [email protected] Measurements and illustrations were prepared using a This paper was edited by Zafar Handoo camera lucida; the drawings were prepared using Illus- 362 Tylenchoidea gonoduct: Bert et al. 363 TABLE 1. List of species studied (and their authorities), description of sampling site or culture and location Species Sampling site/Population origin Location/Source Tylenchus davainei Sand dune covered with Hippophae rhamnoides L. Knokke, Belgian coast Bastian, 1865 (sea buckthorn) T. elegans de Man, 1876 Sand mound on fallow, vegetation dominated by Ghent, Belgium Urtica dioica L. and Glechoma hederaceae L., loamy sand T. arcuatus Siddiqi, 1963 Apple orchard, sandy loam soil Vliermaal, Belgium Lawn in the vicinity of a willow tree Botanical garden (Salix matsudana Koidz), sandy loam soil Ghent University, Belgium Mosses on rocks Idem Filenchus vulgaris Grassland on former dump site Ghent, Belgium (Brzeski, 1963a) Lownsbery & Lawn in the vicinity of a willow tree Botanical garden, Ghent University, Lownsbery, 1985 (Salix matsudana Koidz), sandy loam soil Belgium F. thornei (Andra´ssy, 1953) Andra´ssy, 1963 Apple orchard, sandy loam soil Vliermaal, Belgium F. quartus (Szczygiel, 1969) Lownsbery & Lawn in the vicinity of a willow tree Botanical garden, Ghent University, Lownsbery, 1985 (Salix matsudana Koidz), sandy loam soil Belgium F. facultativus Meadow in the vicinity of apple tree Pleaux, France (Szczgiel, 1969) Raski & Geraert, 1987 Filenchus cf. facultativus (Szczygiel, 1969) Rhizosphere of willow above stony drain 34°13.508ЈN, 117°03.361ЈW, Route 18, Raski & Geraert, 1987 California, US Filenchus cf. orbus Canal bank Ghent, Belgium (Andra´ssy, 1954) Meyl, 1961 Filenchus cf. terrestris Grassland Bourgoyen-Ossemeersen, Ghent, Belgium Raski & Geraert, 1987 Coslenchus costatus Moervaart canal bank Lokeren, Belgium (de Man, 1921) Siddiqi, 1978 Lawn in the vicinity of a willow tree Botanical garden (Salix matsudana Koidz), sandy loam soil Ghent University, Belgium C. polonicus Brzeski, 1982 Wetland, sandy loam soil with a high peat content Bourgoyen-Ossemeersen, Ghent, Belgium C. andrassyi Brzeski, 1987 Border of a football pitch Heusden, Destelbergen, Belgium Lawn, sandy loam soil Sint-Amands, Antwerp province, Belgium Coslenchus cf. polygyrus Bajaj & Bhatta, Potato field Schorisse, Flemish 1983 Ardennes, Belgium Aglenchus agricola (de Man, 1880) Meyl, Lawn in the vicinity of a willow tree (Salix Botanical garden Ghent University, 1961 matsudana Koidz), sandy loam soil Belgium Apple orchard, sandy loam soil Vliermaal, Belgium Football pitch Heusden, Destelbergen, Belgium Lawn, loamy sand soil Geel, Antwerp province, Belgium Basiria duplexa (Hagemeyer & Allen, Lawn, light sandy loam soil Sint-Amands, Antwerp province, Belgium 1952) Geraert, 1968 B. graminophila Siddiqi, 1959 Potato field Schorisse, Flemish Ardennes, Belgium Grassland on former dump site Ghent city, Belgium Rhizosphere of Brassica rapa L. (rape) Latitpur district, Nepal B. gracilis (Thorne, 1949) Siddiqi, 1963 Grassland on former dump site Ghent city, Belgium Boleodorus thylactus Thorne, 1941 Lawn in the vicinity of a willow tree (Salix Botanical garden, Ghent University, matsudana Koidz), sandy loam soil Belgium unknown Spain Neopsilenchus magnidens (Thorne, 1949) Apple orchard, sandy loam soil Vliermaal, Limburg province, Belgium Thorne & Malek, 1968 Psilenchus aestuarius Andra´ssy, 1962 Grassland on former dump site Ghent city, Belgium Cephalenchus leptus Siddiqi, 1963 Apple orchard, sandy loam soil Vliermaal, Limburg province, Belgium Tropical rainforest Kakamega, Kenya C. hexalineatus (Garaert, 1962) Geraert & Uncovered soil in the vicinity of Hedera helix L. Landegem, East-Flanders province, Belgium Goodey, 1964 (common ivy) and Betula sp. (birch) Geocenamus brevidens (Allen, 1955) Grassy riverbank, vegetation dominated by Moervaart canal, Lokeren, Belgium Brzeski, 1991 Arrhenatherion elatius (L.) Presl and Holcus lanatus L. Geocenamus nothus (Allen, 1955) Brzeski,

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