scholarly journals Sources of Resistance to Race 2WF Powdery Mildew in U.S. Watermelon Plant Introductions

HortScience ◽  
2011 ◽  
Vol 46 (10) ◽  
pp. 1349-1352 ◽  
Author(s):  
Haiying Zhang ◽  
Shaogui Guo ◽  
Guoyi Gong ◽  
Yi Ren ◽  
Angela R. Davis ◽  
...  
Keyword(s):  
Powdery Mildew ◽  
Citrullus Lanatus ◽  
Podosphaera Xanthii ◽  
Sphaerotheca Fuliginea ◽  
Sources Of Resistance ◽  
Foliar Disease ◽  
Breeding For Resistance ◽  
Plant Introductions

Powdery mildew of cucurbits, incited by Podosphaera xanthii (Castagne) Braun & Shishkoff (syn. Sphaerotheca fuliginea auct. p.p.), is an economically important foliar disease. which is now common in watermelon [Citrullus lanatus (Thunb.) Mastum. & Nakai]. This disease occurs in all watermelon-growing areas and can reduce yields by up to 30%. Finding and breeding for resistance to this disease is important to reduce dependence on fungicides and to use in combination with fungicides to limit the spread of fungicide-resistant P. xanthii. This is the first English report that race 2WF of P. xanthii can infect watermelon. It is the prevalent race of watermelon powdery mildew in Beijing.

scholarly journals Evaluation of Watermelon and Related Species for Resistance to Race 1W Powdery Mildew

2007 ◽  
Vol 132 (6) ◽  
pp. 790-795 ◽  
Author(s):  
Angela R. Davis ◽  
Amnon Levi ◽  
Antonia Tetteh ◽  
Todd Wehner ◽  
Vincent Russo ◽  
...  
Keyword(s):  
Powdery Mildew ◽  
Citrullus Lanatus ◽  
Plant Introduction ◽  
The United States ◽  
Common Disease ◽  
Podosphaera Xanthii ◽  
Sphaerotheca Fuliginea ◽  
Wild Type ◽  
Intermediate Resistance ◽  
Cultivated Species

Powdery mildew [Podosphaera xanthii (Castagne) Braun & Shishkoff (syn. Sphaerotheca fuliginea auct. p.p.)] is now a common disease on watermelon [Citrullus lanatus (Thunb.) Matsum. & Nakai] in the United States. In this study, the entire available U.S. Plant Introduction collection of Citrullus Schrad. ex Eckl. & Zeyh. species was evaluated for resistance to P. xanthii race 1W. The collection consists of four Citrullus species and one Praecitrullus Pangalo species [C. lanatus var. citroides (L.H. Bailey) Mansf., C. colocynthis (L.) Schrad., C. rehmii De Winter, and P. fistulosus (Stocks) Pangalo]. Wild-type accessions tended to be more resistant more often than the cultivated species, C. lanatus var. lanatus. None were immune, eight of the 1573 accessions exhibited high levels of resistance, and another 86 demonstrated intermediate resistance. Stem and leaf disease severity were weakly correlated (r 2 = 0.64, P = 0.001). The majority of accessions having resistance were collected in Zimbabwe. Resistance was found in four species.

scholarly journals Evaluation of U.S. Plant Introductions of Watermelon for Resistance to Powdery Mildew

HortScience ◽  
2005 ◽  
Vol 40 (1) ◽  
pp. 154-156 ◽  
Author(s):  
Claude E. Thomas ◽  
Amnon Levi ◽  
Ellis Caniglia
Keyword(s):  
Powdery Mildew ◽  
Citrullus Lanatus ◽  
Sphaerotheca Fuliginea ◽  
Test Results ◽  
Plant Introductions ◽  
Weighted Averages ◽  
True Leaf ◽  
Intermediate Resistance ◽  
Growth Room ◽  
Race 2

Two hundred sixty-six Citrullus lanatus (Thumb.) Matsum. & Nakai accessions (Plant Introductions and named cultivars) were tested against a race 2 Sphaerotheca fuliginea (Schlechtend.: Fr.) Pollacci isolate to evaluate for resistance to powdery mildew disease. Growth room-grown seedlings were artificially inoculated with conidia from watermelon host leaves at 2-day intervals from the appearance of the first true leaf until test results data were taken, when the second true leaf was fully expanded. Plants were evaluated on a 1 to 9 scale of increasing disease severity. Disease indices (DIs) were calculated as weighted averages for each entry. All genotypes with resistant plants (powdery mildew rating 1 to 3) were reevaluated in a replicated test of 3 replications of 10 plants each. Disease indices were again calculated. Twenty-two plant introductions (PIs) and one named variety displayed intermediate resistance to powdery mildew in the replicated test with DIs ranging from 5.0 to 6.0.

scholarly journals Sources of Resistance in U.S. Plant Introductions to Watermelon Vine Decline Caused by Squash Vein Yellowing Virus

HortScience ◽  
2009 ◽  
Vol 44 (2) ◽  
pp. 256-262 ◽  
Author(s):  
Chandrasekar S. Kousik ◽  
Scott Adkins ◽  
William W. Turechek ◽  
Pamela D. Roberts
Keyword(s):  
Citrullus Lanatus ◽  
Field Trials ◽  
Limiting Factor ◽  
Sources Of Resistance ◽  
Central Florida ◽  
Plant Introductions ◽  
Disease Progress ◽  
Vine Decline ◽  
Moderate Resistance ◽  
Yellowing Virus

Watermelon vine decline (WVD) is a new and emerging disease caused by the whitefly-transmitted squash vein yellowing virus (SqVYV). The disease has become a major limiting factor in watermelon [Citrullus lanatus (Thunb.) Matsum. & Nakai] production in southwest and west–central Florida and is estimated to have caused more than $60 million in losses. Symptoms of WVD typically occur at or just before harvest and are manifested as sudden decline of the vines, often with a reduction in fruit quality. In this study, we present results of greenhouse and field evaluations of U.S. plant introductions (PIs) for resistance to SqVYV. Of the 218 PIs we evaluated for resistance to SqVYV, none were completely immune, but several showed varying levels of resistance and these were further evaluated in two greenhouse and field trials. Disease progress was significantly slower on the selected PIs compared with disease progress on susceptible watermelon cultivars Mickey Lee and Crimson Sweet. Moderate resistance was observed in two C. colocynthis (PI 386015 and PI 386024), a Praecitrullus fistulosus (PI 381749), and two C. lanatus var. lanatus PIs (PI 482266 and PI 392291). Variability in the resistant reaction to SqVYV within most PIs was observed. The identification of potential sources of partial resistance to SqVYV suggests that watermelon germplasm with moderate resistance can be developed by careful screening and selection of individual resistant plants within these PIs for use in breeding programs.

scholarly journals FIELD EVIDENCE FOR A NEW RACE OF POWDERY MILDEW ON MELON

HortScience ◽  
2005 ◽  
Vol 40 (3) ◽  
pp. 888a-888 ◽  
Author(s):  
James D. McCreight ◽  
Michael D. Coffey ◽  
Thomas A. Turini ◽  
Michael E. Matheron
Keyword(s):  
Powdery Mildew ◽  
Powdery Mildew Resistance ◽  
Genetic Resistance ◽  
Podosphaera Xanthii ◽  
Sphaerotheca Fuliginea ◽  
Imperial Valley ◽  
Field Evidence ◽  
Race 1 ◽  
New Race ◽  
The U.S

Races 1 and 2 of Podosphaera xanthii (syn. Sphaerotheca fuliginea) were defined in Imperial Valley, Calif. 1938 when P. xanthii overcame genetic resistance in `PMR 45'. Race 3 was first observed in the U.S. in 1976 in Texas; 15 additional races of P. xanthii have been reported in the literature since 1996. Races 1 and 2 have been common in Arizona and California based upon the effectiveness of the powdery mildew resistance genes in commercially available melon cultivars grown in these states. Field data from 11 commonly used melon P. xanthii race differentials in 2001 and 2002 indicated the presence of race 1 in the Imperial Valley and San Joaquin Valley of California, and Yuma, Arizona. In spring 2003, the powdery mildew race situation changed. The first evidence was the occurrence of a severe and widespread infection of powdery mildew in a commercial cantaloupe field. The 11 powdery mildew race differentials were susceptible to powdery mildew in a nearby replicated field test. PI 313970, a melon from India, was resistant to this apparent new race of powdery mildew.

scholarly journals Potential Sources of Resistance to Fusarium Wilt and Powdery Mildew in Melons

HortScience ◽  
2005 ◽  
Vol 40 (6) ◽  
pp. 1657-1660 ◽  
Author(s):  
José María Alvarez ◽  
Rafael González-Torres ◽  
Cristina Mallor ◽  
María Luisa Gómez-Guillamón
Keyword(s):  
Powdery Mildew ◽  
Fusarium Oxysporum ◽  
Fusarium Wilt ◽  
Cucumis Melo ◽  
Wild Relatives ◽  
Natural Resistance ◽  
Sphaerotheca Fuliginea ◽  
Sources Of Resistance ◽  
Potential Sources ◽  
Artificial Inoculations

In total, 139 Cucumis melo accessions were evaluated for resistance to races 0, 1, and 2 of Fusarium oxysporum fsp. melonis and 127 accessions were evaluated for resistance to races 1 and 2 of Sphaerotheca fuliginea. In addition, seven C. melo wild relatives were also tested. Artificial inoculations were performed and plants were scored for presence or absence of symptoms. The screening revealed that sources of natural resistance to these fungi are limited. However, several sources of resistance were found in C. melo accessions. Thus, the accession `CUM-334' from Tajikistan has shown resistance to the three races of F. oxysporum fsp. melonis, behaving similarly to the melon inbred line `MR1'. Two accessions of C. melo var. conomon, `CUM-190' and `Shiroubi Okayama', from Japan, were resistant to races 0 and 1 and twelve accessions were resistant to races 0 and 2. Intra-specific variability for resistance to powdery mildew in C. melo was found to be poor. Nevertheless, six Spanish cultivars and the accessions `TGR-1551', `CUM-313', and `CUM-129' were resistant to races 1 and 2 of S. fuliginea.

scholarly journals Resistance to Phytophthora Fruit Rot of Watermelon Caused by Phytophthora capsici in U.S. Plant Introductions

HortScience ◽  
2012 ◽  
Vol 47 (12) ◽  
pp. 1682-1689 ◽  
Author(s):  
Chandrasekar S. Kousik ◽  
Jennifer L. Ikerd ◽  
Patrick Wechter ◽  
Howard Harrison ◽  
Amnon Levi
Keyword(s):  
Citrullus Lanatus ◽  
Phytophthora Capsici ◽  
Fruit Rot ◽  
Preliminary Evaluation ◽  
Yield Losses ◽  
Mature Fruit ◽  
Sources Of Resistance ◽  
Breeding Programs ◽  
Plant Introductions ◽  
Agar Plug

Phytophthora fruit rot, caused by Phytophthora capsici, is prevalent in most watermelon-producing regions of southeastern United States and is known to cause pre- and post-harvest yield losses. A non-wound inoculation technique was developed to evaluate detached mature fruit belonging to U.S. watermelon PIs for resistance to fruit rot caused by P. capsici. Mature fruit were harvested and placed on wire shelves in a walk-in humid chamber [greater than 95% relative humidity (RH), temperature 26 ± 2 °C] and inoculated with a 7-mm agar plug from an actively growing colony of P. capsici. Twenty-four PIs that exhibited resistance in a preliminary evaluation of 205 PIs belonging to the watermelon core collection in 2009 were grown in the field and greenhouse in 2010 and 2011 and evaluated in the walk-in humid chamber. Fruit rot development was rapid on fruit of susceptible controls ‘Black Diamond’, ‘Sugar Baby’, and PI 536464. Several accessions including PI 560020, PI 306782, PI 186489, and PI 595203 (all Citrullus lanatus var. lanatus) were highly resistant to fruit rot. One C. colocynthis (PI 388770) and a C. lanatus var. citroides PI (PI 189225) also showed fruit rot resistance. Fruit from PIs that were resistant also had significantly lower amounts of P. capsici DNA/gram of fruit tissue compared with the susceptible commercial cultivars Sugar Baby and Black Diamond. The sources of resistance to Phytophthora fruit rot identified in this study may prove useful in watermelon breeding programs aimed at enhancing disease resistance.

scholarly journals First Report of Podosphaera xanthii Race 1W Causing Powdery Mildew of Watermelon in California

Plant Disease ◽  
2014 ◽  
Vol 98 (1) ◽  
pp. 158-158 ◽  
Author(s):  
J. Mercier ◽  
M. J. Muscara ◽  
A. R. Davis
Keyword(s):  
Powdery Mildew ◽  
Citrullus Lanatus ◽  
Field Isolate ◽  
Central Valley ◽  
Spore Suspension ◽  
Growth Chamber ◽  
Tween 20 ◽  
Podosphaera Xanthii ◽  
Breeding Lines ◽  
Field Plots

In September and October 2012, powdery mildew was detected on watermelon (Citrullus lanatus var. lanatus) plants of various breeding lines growing in field plots in Davis, California. Plants had partially necrotic leaves, yellowing to brown in color, with white surface mycelium and faint sporulation. No teleomorph was observed. Infected leaves were collected for examination and a spore suspension of the field isolate was made in water with 0.01% Tween 20 to spray inoculate watermelon seedlings of cultivar Dixie Lee with two true leaves. Plants were incubated in a growth chamber (22 to 26°C, 12-h photoperiod) for approximately 10 days, until sporulation was apparent. Microscopic observation of conidial chains showed that they had clearly crenate edges indicative of Podosphaera xanthii (4). To confirm the identity of the pathogen, we used Podosphaera-specific primers PFITS-F (5′-CCAACTCGTGCTGAGTGT-3′) and PF5.8-R (5′-TGTTGGTTTCTTTTCCTCCG-3′) to amplify and sequence the internal transcribed spacer regions of the nuclear rDNA. The 326-bp sequence had 98% homology to the GenBank sequence (accessions JQ340082.1 and AB774158.1) for P. xanthii. Infected ‘Dixie Lee’ leaves were used to make a spore suspension (approximately 5 × 104 conidia/ml) as described above to inoculate watermelon, melon, and squash seedlings (2 to 3 plants per cultivar) in a greenhouse. It caused severe symptoms on all watermelon plants cv. Charleston 76, P8, and Sugar Baby in the form of a powdery mildew with surface mycelium and chains of conidia, with leaves becoming gradually more necrotic and eventually dying, with the appearance of a melting down. Non-inoculated plants did not develop symptoms. The isolate also infected all squash plants ‘Zucchini Elite’ and melon powdery mildew differentials Iran H and ‘Védrantais.’ On these plants, the pathogen produced a powdery mildew (white surface mycelium with sporulation) but did not cause extensive necrosis. All other melon powdery mildew differentials (‘PMR5,’ ‘PMR45,’ WMR29, MR1, PI 124112, and PI 313970) did not develop any powdery mildew. A follow-up test in a growth chamber (22 to 26°C, 12-h photoperiod) with the same set of species and cultivars gave the same results. Based on these results, we conclude that this isolate belongs to race 1W (1,2). The presence of race 1W could have implications in disease management for this crop in the Central Valley of California as most cultivars are not resistant to it and the disease has been shown to cause severe damage in other states (1,3). References: (1) A. R. Davis et al. J. Am. Soc. Hort. Sci. 132:790, 2007. (2) J. D. McCreight. Amer. Soc. Hort. Sci. 131:59, 2006. (3) A. Y. Tetteh et al. Crop Sci. 50:933, 2010. (4) T. A. Zitter. Page 28 in: Compendium of Cucurbit Diseases, The American Phytopathological Society, St. Paul, MN, 1996.

scholarly journals Potential Sources of Resistance to Cucurbit Powdery Mildew in U.S. Plant Introductions of Bottle Gourd

HortScience ◽  
2008 ◽  
Vol 43 (5) ◽  
pp. 1359-1364 ◽  
Author(s):  
Chandrasekar S. Kousik ◽  
Amnon Levi ◽  
Kai-Shu Ling ◽  
W. Patrick Wechter
Keyword(s):  
Powdery Mildew ◽  
The United States ◽  
Bottle Gourd ◽  
Severe Damage ◽  
Sources Of Resistance ◽  
Breeding Programs ◽  
Plant Introductions ◽  
Race 1 ◽  
Moderate Resistance ◽  
Greenhouse Tests

Powdery mildew (Podosphaera xanthii) can cause severe damage to cucurbit crops grown in open fields and greenhouses. In recent years, there has been an increased interest in the United States in grafting watermelon plants onto various cucurbit rootstocks. Bottle gourd plants (Lagenaria siceraria) are being used throughout the world as rootstocks for grafting watermelon. Although gourd plants are beneficial, they may still be susceptible hosts to various soilborne and foliar diseases. Bottle gourd plant introductions (PI) resistant to diseases and pests can be a valuable source of germplasm in rootstock breeding programs. We evaluated 234 U.S. PIs of L. siceraria for tolerance to powdery mildew in two greenhouse tests. Young seedlings were inoculated by dusting powdery mildew spores of melon race 1 on the cotyledons. Plants were rated 2 weeks after inoculation using a 1 to 9 scale of increasing disease severity. Although none of the L. siceraria PIs were immune to powdery mildew, several PIs had significantly lower levels of powdery mildew severity compared with susceptible watermelon cultivar Mickey Lee. The experiment was repeated with 26 select PIs on whole seedlings and cotyledon disks. Significant variability in the level of resistance to powdery mildew on plants within PI was observed. Moderate resistance in several PIs to powdery mildew was confirmed. PI 271353 had consistently lower ratings in the various tests and can be considered the most resistant to P. xanthii race 1 among the L. siceraria accessions evaluated in this study. A few other PIs with moderate resistance to powdery mildew included PI 271357, PI 381840, and PI 273663. These results suggest that novel sources of resistance could be developed by careful selection and screening of several of the PIs with moderate resistance described in our study.

scholarly journals Potential Sources of Resistance to Broad Mites (Polyphagotarsonemus latus) in Watermelon Germplasm

HortScience ◽  
2007 ◽  
Vol 42 (7) ◽  
pp. 1539-1544 ◽  
Author(s):  
Chandrasekar S. Kousik ◽  
B.M. Shepard ◽  
Richard Hassell ◽  
Amnon Levi ◽  
Alvin M. Simmons
Keyword(s):  
Citrullus Lanatus ◽  
The United States ◽  
Citrullus Colocynthis ◽  
Polyphagotarsonemus Latus ◽  
Sources Of Resistance ◽  
Visible Injury ◽  
Breeding Programs ◽  
Plant Introductions ◽  
Potential Sources ◽  
Broad Mite

Two hundred nineteen U.S. plant introductions (PI) belonging to the watermelon core collection were evaluated for broad mite, Polyphagotarsonemus latus (Banks), infestation and injury that occurred naturally in a field planting. Of the 219 PIs, nine (4%) had no visible broad mite injury in the field compared with a commercial cultivar, ‘Mickey Lee’, which was severely injured. Injury mainly occurred on the growing terminals and the tender apical leaves. The growing terminals and the apical leaves were bronzed, grew poorly and, in some cases, they were distorted and curled upward. Broad mites were extracted by washing the growing terminals of 22 selected PIs with boiling water and counting the mites under a stereomicroscope. ‘Mickey Lee’ had more broad mites on growing terminals compared with some of the PIs with no visible injury. Fourteen selected PIs were further evaluated in the greenhouse to confirm their resistance by artificially infesting them with broad mites that had been cultured on susceptible watermelon plants. PIs in accessions belonging to Citrullus lanatus var. lanatus (PI 357708), Citrullus lanatus var. citroides (PI 500354), Citrullus colocynthis (PI 386015, PI 386016, PI 525082), and Parecitrullus fistulosus (PI 449332) had significantly lower broad mite injury ratings and counts compared with ‘Mickey Lee’ and other susceptible PIs. Broad mites have not been reported on watermelons in the United States before; however, it can emerge as a serious pest. The previously mentioned accessions can serve as potential sources of broad mite resistance for use in breeding programs aimed at enhancing pest resistance in watermelon.

scholarly journals Cucurbit Powdery Mildew-resistant Bitter Gourd Breeding Lines Reveal Four Races of Podosphaera xanthii in Asia

HortScience ◽  
2018 ◽  
Vol 53 (3) ◽  
pp. 337-341 ◽  
Author(s):  
Narinder P.S. Dhillon ◽  
Supannika Sanguansil ◽  
Supornpun Srimat ◽  
Roland Schafleitner ◽  
B. Manjunath ◽  
...  
Keyword(s):  
Powdery Mildew ◽  
Smallholder Farmers ◽  
Bitter Gourd ◽  
Yield Potential ◽  
Podosphaera Xanthii ◽  
Asian Countries ◽  
Sources Of Resistance ◽  
Breeding Lines ◽  
Race 1 ◽  
Cucurbit Powdery Mildew

Bitter gourd (Momordica charantia L.) is a commercially and nutritionally important market vegetable in Asia cultivated mainly by smallholder farmers. Cucurbit powdery mildew (CPM) caused by Podosphaera xanthii (Px) is a nearly ubiquitous and serious fungal disease of bitter gourd. Five bitter gourd breeding lines (THMC 113, THMC 143, THMC 153, THMC 167, and THMC 170) were selected at the World Vegetable Center for resistance to a local isolate of Px in Kamphaeng Saen, Thailand. We evaluated the resistance potential of these five inbred lines against local isolates of Px at 12 locations in five Asian countries. Plants were inoculated with the respective local Px isolate 15 and 30 days after transplanting and additional Px-infected plants of the inoculated control were interplanted throughout each test. Plants were rated 60 days after transplanting for CPM reaction using a 0 (no evidence of infection) to 5 (>75% infection evident on individual leaves) disease severity scale. THMC 153 and THMC 167 were resistant to the local race of Px in all locations, whereas THMC 143 was observed resistant in all test locations except one in China. THMC 113 was resistant in each location except one in India. THMC 170 was susceptible in three locations in India. The multilocation tests revealed four unique Px races on bitter gourd in different Asian countries and sources of resistance for breeding CPM-resistant bitter gourd cultivars. Six strains of Px isolated from other cucurbits (Cucumis and Cucurbita) and representing five melon CPM races were unable to infect the susceptible M. charantia accession THMC 144 and the five resistant breeding lines, indicating pathotype differences between them and an isolate of M. charantia origin typed as race 1 on melon. THMC 143 and THMC 167, which originated from India, exhibited good yield potential in trials conducted in Thailand, Myanmar, Vietnam, and Bangladesh.

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