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1999 Caribbean Division Meeting Abstracts
June 21-25, 1999 - San Juan, Puerto Rico
Posted online June 23, 1999
Biological, genetic, and molecular characterization of begomoviruses
from Puerto Rico and the Caribbean Region. J. K. BROWN. Dept.
of Plant Sciences, Univ. of AZ, Tucson, AZ 85721. Publication
no. P-2000-0001-CRA.
Whitefly-transmitted geminiviruses are emergent pathogens in the
Caribbean Region, including Puerto Rico, and Central America.
Increased economic importance of begomovirus pathogens is attributed
to the invasion by a polyphagous, exotic, Old World whitefly vector,
Bemisia tabaci type B, and to the expansion of irrigated
agriculture. Recent evidence suggests that the B type vector is
capable of displacing New World B. tabaci in the region,
and that it may also be a more effective vector of certain begomoviruses.
Collectively, these changes have resulted in the emergence of
begomoviruses that infect many species within a large number of
plant families in the Caribbean, though neither the precise origin
nor the pedigree of these emergent viruses is well understood.
Begomovirus Cp sequences and two Cp fragments were assessed for
their utility in establishing the provisional identity and classification
of field isolates. Consistent with elucidating the dynamics underlying
begomovirus-vector-host interactions that promote, discourage,
or delimit the emergence of strains/viruses, non-coding sequences
involved in replication and other viral ORFs are also under investigation.
Their analysis will permit the reconstruction of gene trees, and/or
facilitate predictions about formation of viable reassortants
that may utilize replication-, movement-, and/or transmission-specific
sequences that feasibly influence virus evolution.
Jatropha mosaic begomovirus variants from weed and cultivated
hosts in Puerto Rico. J. K. BROWN (1), A. M. Idris (1), I.
Torres-Jerez (1), and J. Bird (2). (1) Dept. of Plant Sciences,
Univ. of AZ, Tucson, AZ 85721 and (2) Plant Protection Dept.,
Univ. of PR, Rio Piedras, PR 00928. Publication
no. P-2000-0002-CRA.
Jatropha mosaic virus (JMV) infects Jatropha gossypifolia (Jg)
and J. foetida (Jf), two weed species in Puerto Rico. JMV
was recently implicated as the causal agent of leaf curl disease
of passionvine Passiflora edulis (JMV-Pe) in PR. Until the Bemisia
tabaci type B became established in PR, JMV was host-restricted
because its vector biotype did not feed outside Jatropha.
Comparisons of viral coat protein (Cp), common region A/B (CR-A/B),
and Rep sequences suggest that each host species contains a distinct
viral population. Based on Cp AA sequences, at least two variants
(Pe 1,2) were present in passionvine that most closely resembled
Jg, yet Cp AA sequences of Jg, Pe1,2, and Pf share 96-99% identities.
Nt sequence identities for putative cognate Jg, Jf, and Pe CRs-A/B
are 92.9, 98.8, and 100%, respectively. Each cognate pair has
identical Rep binding sites, but a unique iteron. Rep
AA sequences are most different, sharing only 91-93% identities.
Variability in Rep and putative Rep binding sites of JMV isolates
may suggest host-associated virus adaptation.
Occurrence and pathogenicity of three minor pathogens of wheat
seedlings in Mississippi. M. S. GONZALEZ and L. E. Trevathan.
Dept. of Entomology and Plant Pathology, Mississippi State University,
Starkville, MS 39762. Publication no. P-2000-0003-CRA.
In field tests conducted at Starkville, MS during 1996 and 1997,
Cochliobolus sativus was most frequently isolated, and
Fusarium acuminatum was the most prevalent Fusarium spp.
from crown and root tissues of cv. Wakefield wheat seedlings.
Cochlioblus spicifer, Embellisia chamydospora and
Microdochium bolleyi were also consistently associated
with wheat seedlings. Pathogenicity tests were conducted with
three isolates each of C. spicifer, E. chlamydospora
and M. bolleyi in test tube culture and two isolates each
of C. spicifer, E. chlamydospora and M. bolleyi
under greenhouse conditions. Seedlings infected with E. chlamydospora
and M. bolleyi had slight to moderate orange to light-brown
discoloration of crown and seminal roots in test tubes. Cochliobolus
spicifer induced preemergence damping-off, black root discoloration
and root pruning, and reduced seedling emergence, root fresh weight
and shoot dry weight. In the greenhouse, M. bolleyi and
E. chlamydospora reduced shoot dry weight, fresh and dry
weight of roots, and plant emergence. Cochliobolus spicifer
reduced seedling growth rate. This constitutes the first report
of pathogenicity of these fungi to wheat seedlings on the Upper
Coastal Plain Land Resource Area of Mississippi.
Sensitivity of isolates of Phytophthora capsici to Ridomil
Gold EC in Florida. A. HERT (1), P. D. Roberts (1), R. J.
McGovern (2), and R. R. Urs (1). (1) SWFREC, University of Florida,
Immokalee, FL 34142; (2) GCREC, University of Florida, Bradenton,
FL 34203. Publication no. P-2000-0004-CRA.
A total of 51 Phytophthora capsici isolates from field
samples were screened for sensitivity to Ridomil Gold EC (R) -2-[2,6-dimethylphenyl)-methoxyacetylamino]-propionic
acid methyl ester). These isolates are from watermelon (14), tomato
(7), yellow squash (6), squash (6), pepper (6), zucchini (4),
cantaloupe (3), cucumber (3), and eggplant (2). Ridomil Gold EC
was incorporated into corn meal agar (CMA) to give final concentrations
of 0, 10, 100 ppm. Four 5.0 mm plugs taken from a three day old
culture grown on CMA were placed on the center of each quadrant
of duplicate plates at each concentration. Colony diameter was
measured after 3 days growth at 28C. Isolates were considered
to be insensitive if growth was greater than 40% of the control.
Of the 51 isolates tested, 40 isolates were sensitive to both
concentrations. Seven isolates were insensitive only at the 10
ppm, where as 5 isolates were insensitive at 100 ppm. Among the
five insensitive isolates, two were from yellow squash and one
each from tomato, pepper, and zucchini.
Macroptilium mosaic begomovirus from Puerto Rico causes a golden
mosaic disease of bean, but is distinct from bean golden mosaic
begomovirus. A. M. Idris (1), J. Bird (2), and J. K. BROWN
(1). (1) Dept. of Plant Sciences, Univ. of AZ, Tucson, AZ 85721
and (2) Plant Protection Dept., Univ. of PR, Rio Piedras, PR 00928. Publication
no. P-2000-0005-CRA.
Macroptilium lathyroides (L.) is a weed host of begomoviruses
in the subtropical Americas. Macroptilium mosaic begomovirus (MaMV)
from Puerto Rico causes bright yellow mosaic symptoms in M.
lathyroides, while experimentally inoculated bean develops
yellow-mosaic symptoms, reminiscent of bean golden mosaic virus
(BGMV-PR). Consequently, M. lathyroides has been considered
a reservoir of BGMV-PR for bean. M. lathyroides inoculated
with MaMV-PR developed bright yellow mosaic symptoms, while bean
exhibited green-yellow mosaic and stunting. The coat protein (Cp),
and common region A (CR-A) and B (CR-B) sequences of M. lathyroides
isolates collected during 1994-1999 were examined. MaMV Cp sequences
shared 77.3-79.3% identity with BGMV isolates from DR, HON, GA,
JAM, and PR. MaMV-PR CR-A and CR-B sequences shared 97.5% identity,
indicating origination from the same bipartite genome. Sequence
comparisons collectively of MaMV-PR and BGMV isolates indicated
BGMV and MaMV-PR are distinct begomoviruses.
Reduction of Fusarium solani in caladium tubers by combined
hot water and fungicide treatment. R. J. MCGOVERN, T. E. Seijo,
and B. K. Harbaugh. University of Florida, Gulf Coast Research
and Education Center, Bradenton, FL 34203. Publication
no. P-2000-0006-CRA.
Fungicides, including azoxystrobin (Heritage; 600 mg/L), fludioxonil
(Medallion; 75 mg/L), thiophanate methyl (SysTec 1998; 2.6 ml/L),
thiophanate methyl+chlorothalonil (Consyst; 1.8g/L), thiophanate
methyl+etridiazole (Banrot 40 WP; 674 mg/L), a bicarbonate fungicide
(Armicarb 300; 5.0 g/L), and mefenoxam (Subdue Maxx; 156 µl/L)
were evaluated for reduction of Fusarium solani and Pythium
sp. in tubers of caladium 'Frieda Hemple'. All were used in combination
with a standard hot water treatment (50°C/30 min), and all
except Armicarb 300 and Banrot were used alone and in combination
with mefenoxam. Infection incidence and severity were assessed
by placing tuber cores on Fusarium and Pythium selective
media. Pythium was not detected in any tubers. Fusarium
incidence was significantly reduced by Banrot, Armicarb 300, Consyst,
and Heritage, but not by hot water alone, Medallion, SysTec 1998,
or Subdue Maxx. Although the severity of Fusarium infection
was reduced by hot water alone, all fungicides in combination
with hot water were significantly more effective.
Evaluation of fungicides for control of lychee anthracnose.
McMillan, Robert T., Jr. University of Florida, IFAS, Tropical
Research and Education Center, Homestead, FL 33031. Publication
no. P-2000-0007-CRA.
Lychee (Litchi chinensis 'Mauritius') is highly susceptible
to Colletotrichum gloeosporioides Penz. in Miami-Dade County
Florida. Fungicides were applied to four single tree plots arranged
in a randomized complete block design in a 4-year-old grove planted
on a 20 × 25 foot spacing. Applications were made with a handgun
sprayer at 200 lb/in.(^2) of pressure using approximately 0.75 gallons
per tree. Dithane M45 alone and in combination with Benlate were
applied weekly until 14 days before harvest. All treatments gave
significant control of lychee anthracnose. Folicur alone and Folicur-Dithane
provided the best lychee anthracnose control. Dithane alone significantly
reduced anthracnose over the untreated control. None of the fungicides
tested caused injury to the fruits or leaves.
Pathogenicity of Rhizopycnis vagum on melon roots.
M. E. MILLER (1), X. Y. Zheng (1), B. D. Bruton (2), and D. F.
Farr (3). (1) Texas A&M University, Weslaco, TX 78596; (2)
USDA-ARS, Lane, OK 74555; (3) USDA-APHIS, Beltsville, MD 20705. Publication
no. P-2000-0008-CRA.
Rhizopycnis vagum was isolated from 13-32% of roots of
8 week old cantaloupe ('Magnum 45'), honeydew ('Honey Brew' and
'Morning Ice'), and watermelon ('Jubilee II') plants from a field
with a history of vine decline disease of unknown etiology. The
isolation frequency of this species, made from subsequent, biweekly
isolations, was similar through plant maturity. R. vagum has also
been isolated from roots of melon plants exhibiting vine decline
symptoms in Guatemala and Honduras. 'Jubilee' watermelon and 'Caravelle'
cantaloupe plants inoculated with 1,600, 3,200, and 6,400 CFUs/g
of soil had a significant reduction (p=0.05) in vine length and
vine dry weight over untreated controls. Inoculated 'Jubilee'
watermelon plants also had significantly higher root disease ratings
and lower root dry weights. These data indicate that R. vagum
is pathogenic on melon, thus, it may be involved either alone
or in combination with other pathogens in melon vine decline disease
in Texas and other areas.
Tolerance of 25 cultivars of processing tomato (Lycopersicon
esculentum Mill.) to tomato yellow leave curl virus (TYLCV). J. P. MORALES-PAYAN, T. Martinez, S. Alcantara and J. R. Ortiz.
Dept. de Investigaciones Agropecuarias, Santo Domingo, Dominican
Republic. Publication no. P-2000-0015-CRA.
TYLCV is the main constrain for tomato production in Dominican
Republic (D.R.). Management strategies include the utlization
of TYLCV-tolerant cultivars. A field study was conducted in Azua,
D. R., to determine the extent of tolerance of 25 processing tomato
cultivars to TYLCV. Cultivars were transplanted in a randomized
block design with three replications, and managed according to
local practices. No control of TYLCV vectors was performed, to
allow for natural infection. Measured variables were: amount of
Bemisia spp/leaflet, TYLCV incidence and severity (%),
and crop yield. Cultivars 'Gem Pride', HA-3102, HA-3106, HA-3108
and HA-3118 did not present TYLCV symptoms, and had the highest
yields. APT-391, F7332, 'Marina', 'Veronica', APT-268, 'Topspin',
'Yaqui' and IDIAP-T7 had TYLCV incidence below 20% by 34 days
after transplanting (DAT). SUN-6200, SUN-6117, SUN-6235, SUN-6109,
'Tarim', 'Mingo', 'Fame', 'Bright Pearl' and Farmers-209 had incidence
and severity above 30% by 34 DAT. The highest incidence at that
time was 75% in 'Tarim'.
Azoxystrobin sensitivity distribution of Rhizoctonia isolates
collected from turf. G. OLAYA, C. Wilkerson and E. Tedford.
Zeneca Ag Products, Western Research Center, Richmond, CA 94804. Publication
no. P-2000-0009-CRA.
Isolates of Rhizoctonia spp., causing brown patch of turf,
were collected from several golf courses in the US where azoxystrobin
had never been used. The sensitivity of these isolates to azoxystrobin
was evaluated using a perennial ryegrass (Lolium perenne)
bioassay. For this assay, turf was grown in 4 × 4 inch pots. Two
weeks after planting, turf was sprayed with azoxystrobin at 10,
3, 1, 0.3, 0.1 or 0 µg/mL. Twenty-four hours after fungicide
application, turf was inoculated by placing four Rhizoctonia-colonized
ryeberries onto the center soil surface of each pot. The percentage
of turf area infected was assessed 4 days after inoculation and
ED(50) values were calculated. To validate the reliability of
this test, the assay was repeated six times using three of the
isolates. Based on the evaluation of 27 isolates, the ED(50) values
(µg/mL) relative to the percentage of turf area infected
ranged from 0.243 to 1.868, with a median value of 0.843. Baseline
information will be useful for future monitoring and early detection
of shifts in sensitivity to azoxystrobin.
Efficacy of Abamectin (Agri-Mek 0.15EC) against the root-knot
nematode (Meloidogyne incognita) on tomato. L. A. PAYAN
(1) and D. W. Dickson (2). (1) Novartis Crop Protection, Vero
Beach, FL 32967; (2) University of Florida, Gainesville, FL
32611. Publication no. P-2000-0010-CRA.
A series of studies were conducted to evaluate the efficacy of
Abamectin (Agri-Mek 0.15EC) against the root-knot nematode (Meloidogyne
incognita) on tomato. Under greenhouse conditions, Agri-Mek
at rates as low as 0.01 ppm completely prevented nematode penetration
of tomato roots. Under field conditions, Agri-Mek applied as a
drip treatment reduced nematode galling, increased yields and
reduced nematode population densities. Weekly or biweekly applications
at rates ranging from 113.5 to 567.5 g a.i./ha were effective.
Biotechnology in plant virus research. J. E. POLSTON (1)
and E. Hiebert (2). 1999. Univ. of Florida, (1) Gulf Coast Res.
and Educ. Ctr., 5007 60th St. E., Bradenton, FL 34203 and (2)
Dept. of Plant Path., Gainesville, FL 32611. Publication
no. P-2000-0011-CRA.
The application of biotechnology, a technology utilizing genetically
modified cells or microorganisms, has created new possibilities
for virus research and has allowed virologists to answer questions
that were not addressed by previous technologies. The cloning
and sequencing of viral genomes has led to advances in viral taxonomy
and in the identification of viral genes and their functions.
Biotechnology has presented more sensitive and rapid diagnostic
techniques. Current areas of research utilizing biotechnology
are the elucidation of virus movement and the identification and
characterization of host gene products which are mobilized or
sequestered for virus replication. The identification of host
defense mechanisms and the viral genes which suppress them are
other areas of research utilizing biotechnology. Such studies
will increase our understating of viral pathogenesis. This knowledge
plus that of viral gene functions are being used to create plants
with resistance to viruses through approaches such as pathogenderived
resistance or activation of host defense mechanisms.
Enzymatic activity of soil under intercropping of maize (Zea
mays L.) and jackbean (Canavalia ensiformis (L.) DC.)
in Chiapas, Mexico. R. QUIROGA-MADRIGAL (1), R. Rodríguez-Kábana
(2), J. W. Kloepper (2), C. W. Wood (3), R. García-Espinosa
(4), and R. Ferrera-Cerrato (5). (1) Facultad de Ciencias Agronómicas,
Universidad Autónoma de Chiapas, Villaflores, Chiapas,
30470, Mexico; (2) Dept. of Plant Pathology and (3) Dept. of Agronomy
and Soils, Auburn University, AL, 36849, USA. (4) Programa de
Fitopatología and (5) Programa de Edafología, Colegio
de Postgraduados, Montecillo, Texcoco, Mex., 56230, Mexico. Publication
no. P-2000-0016-CRA.
Activities of soil enzymes have been correlated with general microbial
activity, biocontrol of soilborne plant pathogens, and soil fertility
status. Nutrient cycling, chitinolytic activity, aerobic, and
general microbial populations can be measured indirectly through
enzymatic activity. Agronomic practices, which include cropping
systems, tillage, and fertilization, have an impact on soil microbial
activity, which can be measured through soil enzyme analysis.
A short-term study of intercropping of maize (Zea mays
L.) and jackbean (Canavalia ensiformis (L.) DC.) in Chiapas,
Mexico, was conducted in 1995-97. Several interactions among cropping
systems, tillage, and fertilization on the activities of catalase,
esterase, chitobiase, and urease were determined. Results indicated
that maize produced with sustainable practices in tropical regions
increased microbial activities and possibly suppressiveness to
soilborne plant pathogens.
Nematode populations and enzymatic activity in rhizospheres
of tropical legumes in Auburn, Alabama. R. QUIROGA-MADRIGAL
(1), R. Rodríguez-Kábana (2), D. G. Robertson (2),
C. F. Weaver (2), and P. S. King (2). (1) Facultad de Ciencias
Agronómicas, Universidad Autónoma de Chiapas, Villaflores,
Chiapas, 30470, Mexico; (2) Dept. of Plant Pathology, Auburn University,
AL, 36849, USA. Publication no. P-2000-0017-CRA.
Soil enzymatic activity has been correlated with microbial activity
and suppressiveness to soilborne plant pathogens. A microplot
study in Auburn, Alabama, conducted in 1998 demonstrated significant
differential enzymatic activities between the rhizospheric soils
of tropical legumes in the genera Canavalia, Mucuna,
Indigofera, Crotalaria, Glycine, and Clitoria
and the rhizospheric soils of cotton and sorghum. Results also
showed that the rhizosphere effects of legumes greatly modify
both plant pathogenic and free-living nematode populations. These
results confirm previous findings indicating that some legumes
can be used in crop rotation systems under the subtropical conditions
of Alabama, to suppress nematode pests of crops such as sorghum
and cotton, and improve soil fertility status.
Fruit loss of saw palmetto (Seronoa repens) caused by
Colletotrichum gloeosporiodes. P. D. ROBERTS (1), M.
E. Carrington (1), R. R. Urs (1), R. J. McGovern (2), and J. J.
Mullahey (1). (1) Southwest Florida Research and Education Center,
University of Florida, Immokalee, FL; (2) Gulf Coast Research and
Education Center, University of Florida, FL. Publication
no. P-2000-0012-CRA.
Saw palmetto, a palm species, grows naturally in the southeastern
coastal plain of the United States and is most abundant in Florida.
Extracts from saw palmetto fruits are sold in the world health
supplement market at a value of $2 billion. In 1996 and 1997,
a high incidence of sunken fruit lesions and a premature fruit
drop were observed in natural field plots that were located in
4 counties in central and southern Florida. Fruit loss ranged
from 50-100% from June to August 1997. A fungus isolated from
diseased fruiting spadices and saw palmetto fruit was tentatively
identified as Colletotrichum gloeosporiodes based upon
morphological characteristics. Inoculation of saw palmettos spadices
resulted in typical disease symptoms and fruit abscission. A morphologically
identical fungus was reisolated in fulfillment of Koch's postulates
confirming its role as the causal agent.
Bacterial isolations from common insects of pepper (Capsicum
annuum). V. TORRES, M. Zapata. Crop Protection Department,
University of Puerto Rico, Mayagüez Campus, Box 9030, Mayagüez,
P.R. 00681-9030. Publication no. P-2000-0018-CRA.
Insects were collected from pepper plantations where bacterial
spot disease caused by Xanthomonas campestris pv. Vesicatoria
(Xcv) occurs to examine their role as bacterial vectors.
The insects were: the pepper weevil (Anthonomus eugenii),
the sweet potato whitefly (Bemisia tabaci) and a fly (Fam.
Chloropidae). Bacteria from the external surface and inner body
of the insects were isolated using nutrient agar and broth at
28°C. Bacteria isolated from the pepper weevil and the dipteran
were classified using the Biolog(^R) computer system. The genus
and/or the species isolated from the pepper weevil were: Enterobacter
sp., E. agglomerans, Corynebacterium aquaticum,
y Kingella denitrificans. The bacterial isolated from the
dipteran were: Enterobacter agglomerans, E. cloacae,
Corynebacterium aquaticum, C. pilosum, Flavobacterium
gleum, Leuconostoc mesenteroides, and Weeksella
zoohelcum. Bacteria isolated from the whitefly were not identified.
Some bacteria isolated from the insects were pathogenic on pepper
fruits under greenhouse and in vitro conditions. Xcv
was not detected in our study.
How fungal viruses can be used for plant disease management.
N. K. Van Alfen. Dept. of Plant Pathology and Microbiology, Texas
A&M University, College Station, Texas 77843-2132. Publication
no. P-2000-0013-CRA.
Most fungi contain viruses, yet very little is known about their
effect of the biology of their hosts. Only a few viruses of fungi
have been well characterized, and in each of these cases, the
virus has been found to profoundly affect its host, often in ways
that can be used for biological control of the host. The best
studied use of fungal viruses for biological control is that of
hypovirulence of the chestnut blight pathogen, Cryphonectria
parasitica. The virus responsible for hypovirulence of this
fungus was discovered because of its effectiveness in controlling
this very serious tree disease. The virus has been characterized
and the molecular basis of its ability to cause hypovirulence
is being studied. Study of this virus-host relationship is revealing
many previously unknown aspects of the biology of the fungus,
thus contributing to our understanding of developmental processes
in fungi. It is anticipated that similar studies of other putative
hypovirulence-causing viruses of fungi will likewise prove to
be fruitful.
Comparison of two techniques for the detection of begomoviruses
in Cuba. Y. Martínez Zubiaur, D. Fonseca, M. Quiñones
and E. L. Peralta. National Center for Animal and Plant Health
Apdo. 10, San José de las Lajas, CUBA. Email: yamila@id.censa.edu.cu. Publication
no. P-2000-0014-CRA.
The techniques of nucleic acid hybridization (NAH) and polymerase
chain reaction (PCR) are used for the detection of phytopathogens.
These applications share similar characteristics of specificity,
sensitivity, rapidity and reliability. We describe the standardization
of parameters for the evaluation of PCR and NAH for the detection
of two begomoviruses: Havana tomato virus (HTV) and tomato yellow
leaf curl virus (TYLCVIsr) which infect tomato in Cuba.
The results demonstrated the feasibility of specific detection
using probes and primers from the common region of HTV and TYLCV.
Both techniques were useful for detection, and showed a sensitivity
greater than 90% with an upper limit of detection of 25 fg for
PCR and 100 160 pg for NAH. PCR specificity was reduced
due to the appearance of false positives. NAH was the preferred
technique for the large scale detection of these viruses in the
tomato improvement program in Cuba.
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