
Supplement to Journal of Nematology 22(4S):724-728. 1990. © The Society of Nematologists 1990. Distribution, Hosts, and Morphological Characteristics of Tylenchulus palustris in Florida and Bermuda ROBERTA L. DOW, 1 R. N. INSERRA, 2 R. P. ESSER, 2 AND K. R. LANGDON3 Abstract: Studies on the geographical distribution and hosts of Tylenchuluspalustris were conducted over a 3-year period in Florida and Bermuda. Tylenchulus palustris was found on Aster elliottii and Liquidambar styraciflua roots in swamps of northern and central Florida. It was detected also on Borrichia arborescens and B. frutescens roots in tidal marshes of northern Florida and coastal rocklands of southern Florida and Bermuda. Posterior bodies of T. palustris swollen females from Bermuda did not differ from those of the paratypes; however, second-stage juvenile bodies and male tails from Bermuda were longer than those of the paratypes. Greenhouse host tests indicated that Mikania scandens is a host of T. palustris but not of T. semipenetrans. Key words: aster, Aster elliottii, Bermuda, Borrichia arborescens, Borrichia frutescens, citrus nematode, climbing hempweed, ecology, Florida, host range, Liquidambar styraciflua, Mikania scandens, sea oxeye, sweet gum, Tylenchulus palustris, Tylenchulus semipenetrans. Tylenchulus palustris Inserra et al. was de- MATERIALS AND METHODS scribed from native plants in northern A survey was conducted in Florida and Florida (5). Pop ash (Fraxinus caroliniana Bermuda in 1986-89 to obtain more in- Mill.) and salt bush (Baccharis halimifolia L.) formation about the host range and geo- were the first described hosts (4). Nema- graphical distribution of T. palustris. In tode habitats included hammocks and wa- Florida the survey of 800 samples was lim- terlogged soils (wooded swamps), which ited to native broadleaf plants of northern, may be under 30 cm of fresh water 3--5 central, and southern regions of the state months annually. Recently, T. palustris was because previous studies (4) indicated that found infecting peach (Prunus persica (L.) native dicots from swampy habitats and tid- Batsch.) in Alabama, Arkansas, and Geor- al marshes were the preferred hosts of this gia (6), and noncultivated plants along the species. Surveyed sites with plants charac- coast of Bermuda (unpubl.). There has been teristic of Florida flora (8) were selected on regulatory interest in T. palustris in Florida the basis of Tylenchulus sp. infestation rec- because of its close morphological similar- ords from the files of the Florida Bureau ity to the citrus nematode, T. semipenetrans of Nematology (Table 1). In Bermuda 265 Cobb. Tylenchulus palustris was known as a samples were collected from cultivated and "grass" race of the citrus nematode and uncultivated inland, coastal, and small is- was subjected to the same restrictions as T. land sites. Plant species sampled in the semipenetrans. For regulatory purposes it is coastal areas of Bermuda (1) are listed in important to define the host range and dis- Table 1. tribution of this nematode and to differ- Samples consisting of 1 kg soil and as- entiate it from that of T. semipenetrans. sociated roots were collected from each site, placed in plastic bags, and stored at 7-10 C for up to 10 days before nematode ex- traction. Soil was processed by the centrif- Received for publication 6 June 1989. Senior Plant Protection Officer, Department of Agricul- ugal flotation method (7) to collect T. palus- ture and Fisheries, Botanical Garden Paget, Bermuda, P.O. tris second-stage juveniles (J2) and males. Box HM 834, Hamilton HMCX, Bermuda. Nematologists, Bureau of Nematology, Florida Depart- Roots from sites infested with J2 and males ment of Agriculture and Consumer Services, Division of Plant were separated by plant species, washed, Industry, P.O. Box 1269, Gainesville, FL 32602. s Botanist, Office of Systematic Botany, Florida Depart- and examined with the aid of a stereomi- ment of Agriculture and Consumer Services, Division of Plant croscope for swollen females. Live nema- Industry, P.O. Box 1269, Gainesville, FL 32602. The authors thank D. A. Bivins, H. W. Collins, and A. Y. todes were mounted in water agar (3) and Richmer for technical assistance. identified with a compound microscope. 724 Tylenchulus palustris in Florida and Bermuda: Dow et al. 725 TABLE 1. Surveyed plants from coastal rocklands, swampy habitats, and tidal marshes of Florida and from coastal areas and small islands of Bermuda. Florida Bermuda Acer sp. Borrichia sp. Aster sic). Citharexylum spinosum L. Baccharis sp. Coccoloba uvifera L. Borrichia sp. Conocarpus erectus L. Conoclinium coelistinum (L.) DC. Erigeron darrellianus Hensl. Diospyros virginiana L. Euphorbia buxifolia Lain. Fraxinus caroliniana Mill. Ipomoea sp. Juniperus sp. Schinus terebinthifolius Raddi Laguncularia racemosa (L.) Gaerm. f. Sesuvium portulacastrum L. Liquidambar styraciflua L. Sisyrinchium sp. Magnolia virginiana L. Solidago sempervirens L. Myrica cerifera L. Persea sp. Pinus elliottii Engelm. Quercus sp. Q. virginiana Mill. Rhapidophyllum histrix (Pursh) Wendl. & Drude. Sabal sp. Salicornia virginica L. Salix sp. Sesuvium portulacastrum L. Vitis spp. Morphological characteristics of T. palus- 6-month-old sour orange (Citrus aurantium tris populations from new hosts in Florida L.) seedling was transplanted in combina- and Bermuda were compared with those tion with climbing hempweed. Pots were of paratypes. Selected morphological data arranged in a completely random design for females, males, and J2 were subjected on a greenhouse bench and maintained at to Student's t-test. 20-30 C. Three and five months after A separate survey was conducted on transplanting, the seedlings were removed climbing hempweed, Mikania scandens (L.) from pots infested with T. semipenetrans and Willd. (= M. batatifolia DC.), which grows T. palustris, respectively, and the nematode in the habitats preferred by T. palustris and densities of both parasites in soil were de- was found in the past to be infected by T. termined (7). Males and J2 from roots were semipenetrans in hammocks of southern obtained by root incubation (9). Adult fe- Florida (2). The M. scandens survey, which males were recovered from roots by rool included 60 samples mainly from northern maceration and centrifugal-flotation (7). and central Florida, was conducted in or- der to determine the association of T. semi- RESULTS AND DISCUSSION penetrans and T. palustris with this plant. Both herbaceous and woody plants were To confirm the host suitability of M. found as hosts of T. palustris (Table 2). Aster scandens to T. semipenetrans and to deter- elliottii T. & G. and Liquidambar styraciflua mine its host status to T. palustris, 10 M. L. grow in wooded swamps often inundat- scandens seedlings were transplanted, each ed with fresh water and rich in organic in 15-cm-d plastic pots containing 1,800 matter (Table 2). Borrichia arborescens (L.) cm 3 soil. Soil from five pots was infested DC. and B. frutescens (L.) DC. infected with with two T. palustrisJ2/cm 3, and soil from T. palustris were found along the coastal the other five pots was infested with three areas of southern Florida and Bermuda and T. semipenetrans J2/cm 3. In each pot con- also in tidal marshes subject to periodic taining T. semipenetrans infested soil, one inundation with salt water along the coast 726 Supplement to Journal of Nematology, Volume 22, October I990 TABLE 2. New hosts and habitats of T. palustris in Florida and Bermuda. Host Habitat Aster elliottii T. & G. Aster River bank, Florida (Ichetucknee River) Borrichia arborescens (L.) DC. Sea oxeye Coastal rockland, Florida (Biscayne Bay), and Bermuda B. frutescens (L.) DC. Sea oxeye Tidal marsh, Florida (Jacksonville), coastal rockland, Florida (Biscayne Bay), and Bermuda Liquidambar styraciflua L. Sweet gum Swamp, Florida (Aucilla wildlife management area) Mikania scandens (L.) Willd. Climbing Greenhouse pot, Florida (Gainesville) hempweed of northern Florida. No evidence was found both sea oxeye and sweet gum in Florida of T. palustris infecting other plants grow- and Bermuda. Tylenchulus palustris males ing inland in Bermuda. In the small rocky from Bermuda had cylindrical tails with islands of Bermuda, sea oxeye plants were rounded termini similar to those of para- growing in association with a few other types; however, in some specimens tails halophilic plants in shallow soil (2.5-10 cm were longer (P = 0.05) than those of para- deep) on narrow plateaus located in some- types (39.2-48.0 vs. 33.6-43.8 #m, with c what elevated positions or in crevices where values of 7.6-9.0 vs. 8.1-11.1) (5). Body the plants were protected from the direct widths were smaller (P = 0.05) in some action of ocean waves. All were exposed specimens from Bermuda (11.3-13.7 #m) regularly to ocean spray. In tidal marshes than those of paratypes (12.2-14.2 tzm) (5). of northeastern Florida and in the envi- No differences were found in other mor- ronments of Bermuda, T. palustris popu- phological characters of males compared lations were often associated with marine with the paratypes. Tylenchulus palustris J2 nematodes. TyIenchulus palustris distribu- from Bermuda had longer (P = 0.05) bod- tion in Florida includes Columbia, Dixie, ies than the paratypes and other popula- Duval, Escambia, and Taylor counties in tions from Florida (334.1-390.0 vs. 277.4- northern Florida, Polk in central Florida, 354.9/zm) (5). Their body length did not and Dade in southern Florida. In Bermuda differ, however, from that of T. palustrisJ2 T. palustris is widespread on sea oxeye along from peach, which ranged from 313.6 to the coastal areas. Nine of fifteen sea oxeye 398.8 tzm (6). Tail lengths of J2 were great- sites sampled were infested with T. palus- er (P = 0.05) than those ofparatypes (49.0- tris. 52.9 vs. 45.0-50.9 tzm with c values of 7.1- The morphological characteristics of T. 7.3 vs.
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