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A FIRST GUIDE TO THE AGRICULTURAL INSECT PESTS OF THE YEMEN ARAB REPUBLIC AND THEIR MANAGEMENT.Al-Humiari, Amin Abdulla. January 1982 (has links)
No description available.
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Structure, function, and analysis of Coleoptera and Heteroptera assemblages on two species of hazelnut in OregonWetherill, Karen R. 26 January 2000 (has links)
The European hazelnut, Corylus avellana L., was imported into the U.S. in the
late 1800's and is now grown throughout the Willamette Valley in Oregon. A native
species of hazelnut, C. cornuta Marshall, is a common shrub found in forested areas of
the Pacific Northwest. Foliage of both C. avellana and C. cornuta was sampled using
beating sheets. The objectives of the study were as follows: 1. To compile a complete list
of the Coleoptera and Heteroptera fauna of both species of hazelnut. 2. To determine the
amount of overlap across host plants. 3. To measure arthropod abundance and species
diversity within functional groups across a forest-edge-orchard gradient. 4. To use
ordination techniques to determine where peak abundance of individual taxa occur along
the forest-edge-orchard gradient. One hundred and thirty-two species of Coleoptera and
forty-nine species of Heteroptera were identified on Hazelnut foliage. The most
abundant Heteroptera in the orchards studied is a newly introduced mirid predator,
Malacocoris chlorizans (Panzer). There is a great deal of overlap between the two
hazelnut species. Most differences are attributed to rare species. Diversity and
abundance of predaceous Coleoptera and Heteroptera were severely hindered by IPM
management practices, involving insecticide usage, within the orchards. However, the
organic orchards retained high levels of diversity and abundance of predaceous
Coleoptera and Heteroptera in the centers of the orchards. The organic orchards had
higher diversity of phytophagous Coleoptera and Heteroptera as compared to IPM
orchards, but the abundance of those insects was not different between the IPM and
organic orchards. The ordinations of the Coloeptera data show that the peak abundances
of individual species often shift along the forest-edge-orchard gradient over time and that
the organic orchards retain peak abundances of predaceous Coleoptera even in late
season. The ordinations of the Heteroptera data show that several mirid predators are at
their peak abundances within the orchards of both IPM and organic orchards. / Graduation date: 2000
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Mathematical models for the population dynamics and management of the carrot weevil, Listronotus oregonensis (LeConte) (Coleoptera:Curculionidae)Zhao, Dingxin January 1990 (has links)
The time-varying survival rates of the carrot weevil, Listronotus oregonensis, were estimated by a new method. This method precluded the possibility of negative simulation survival rates. Analysis of carrot weevil population dynamics indicated that the egg mortality was density dependent with Anaphes sordidatus, an egg parasitoid, as a major density dependent factor. Larval mortality was less density dependent. Based on the mortality information, a simulation model for carrot weevil population dynamics was established. The simulation precision, evaluated by comparing simulated and observed egg and larval population dynamics, was satisfactory. Sensitivity analysis indicated that A. sordidatus had a large influence on carrot weevil population dynamics. The economic threshold for carrot weevil control in early carrots was 5 eggs/100 carrots at the peak population density. It ranged from 3.8 to 5.3 eggs/100 carrots in mid-season carrots depending on the selling price. A decision model showed that the best sowing date was after June 5 when risks were not considered. For risk aversion growers, sowing carrots between May 20 and May 31 was the best choice.
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Mathematical models for the population dynamics and management of the carrot weevil, Listronotus oregonensis (LeConte) (Coleoptera:Curculionidae)Zhao, Dingxin January 1990 (has links)
No description available.
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Relative susceptibility of endophytic and non-endophytic turfgrasses to parasitic nematodes /Lafaille, Norman R. 01 January 1998 (has links) (PDF)
No description available.
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Management of fusarium wilt diseases using non-pathogenic Fusarium oxysporum, and silicon and Trichoderma harzianum (ECO-T®)Kidane, Eyob Gebrezgiabher. January 2008 (has links)
In the genus Fusarium are many important plant pathogens. The diversity of hosts the genus attacks, the number of pathogenic taxa and the range of habitats in which they cause disease are the greatest in plant pathology. One important species complex within the genus Fusarium is Fusarium oxysporum Schlecht. This species complex consists more than 80 pathogenic forma specialis and is particularly difficult to control. The fungi can survive in soil for decades as specialized spores, known as chlamydospores. Interestingly, however, this species complex also contains beneficial non-pathogenic forms that can be exploited to manage Fusarium wilt diseases. In this study, the ability of non-pathogenic F. oxysporum strains, Trichoderma harzianum Rifai Eco-T®, soluble silicon, and their combination was evaluated on two important crops, banana (Musa sp. L.) and beans (Phaseolus vulgaris L.), for their potential to suppress pathogenic strains of F. oxysporum. The ability of these crops to take up and accumulate silicon in their organs, and its effect on low temperature stress was also investigated. Several endophytic fungi, mainly Fusarium spp. and bacteria, were isolated from healthy mature banana plants. After preliminary and secondary in vivo screening tests against F. oxysporum f.sp. phaseoli on beans (Phaseolus vulgaris L.) cv. Outeniqua, two non-pathogenic F. oxysporum strains were selected for further testing. These two non-pathogenic F. oxysporum strains were found to colonize banana (Musa sp.) cv. Cavendish Williams and bean plants, and to suppress Fusarium wilt of these crops. In order to improve the efficacy of these biocontrol fungi, soluble silicon was introduced. The relationship between plant mineral nutrition and plant diseases have been reported by several authors. Plants take up silicon equivalent to some macronutrients, although it is not widely recognized as an essential element. In this study, we established that roots, the target plant organ for soilborne plant pathogens, accumulated the greatest quantity of silicon of any plant organs when fertilized with high concentrations of silicon. On the other hand, the corm and stem accumulated the least silicon. Such observations contradict the concept of passive uptake of silicon via the transpiration stream in these plants as the only uptake mechanism. The prophylactic properties of silicon have been documented for many crops against a variety of diseases. In vitro bioassay tests of silicon against these wilt pathogens showed that silicon can be toxic to Fusarium wilt fungi at high concentrations (>7840 mg .-1), resulting in complete inhibition of hyphal growth, spore germination and sporulation. However, low concentrations of silicon (<490 mg .-1) encouraged hyphal growth. Silicon fertilization of banana and beans significantly reduced disease severity of these crops by reducing the impact of the Fusarium wilt pathogens on these crops. However, it could not prevent infection of plants from the wilt pathogens on its own. Synergistic responses were obtained from combined applications of silicon and non-pathogenic F. oxysporum strains against Fusarium wilt of banana. Combinations of silicon with the non-pathogenic F. oxysporum strains significantly suppressed disease severity of Fusarium wilt of banana, caused by F. oxysporum f.sp. cubense (E.F. Smith) Snyder & Hansen, better than applications of either control measure on their own. Banana production in the subtropical regions frequently suffer from chilling injury, and from extreme variations between night and day temperatures. Such stress predisposes banana plants to Fusarium wilt disease. Silicon, on the other hand, is emerging as important mineral in the physiology of many plants, ameliorating a variety of biotic and abiotic stress factors. We established that silicon fertilization of banana plants significantly reduced chilling injury of banana plants. Membrane permeability, lipid peroxidation (MDA level) and proline levels were higher in silicon-untreated plants than the treated ones, all of which demonstrated the stress alleviating effect of silicon. Low temperatures damage the cell membrane of susceptible plants and cause desiccation or dehydration of these cells. Levels of sucrose and raffinose, recognized as cryoprotectants, were significantly higher in silicon-amended banana plants than unamended plants. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.
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Studies on the use of biocontrol agents and soluble silicon against powdery mildew of zucchini and zinnia.Tesfagiorgis, Habtom Butsuamlak. January 2008 (has links)
Powdery mildew (PM) is an important foliar disease of many crops, occurring under both greenhouse and field conditions. The application of biological control and soluble silicon (Si) against PM has received increasing acceptance as a result of increased environmental and public concern over the use of fungicides for disease management, and because many key fungicides are no longer effective because of resistance problems. However, success with these control options depends on the development of effective antagonists and understanding how best to use Si in agriculture. Potential antagonists of PM were isolated from naturally infected leaves of different plants. A total of 2000 isolates were tested in a preliminary screening on detached leaves of zucchini. The best 30 isolates showing consistent results were further tested under greenhouse conditions for their efficacy against PM of zucchini. In a greenhouse trial, 23 isolates provided disease control to levels of 30 to 77%. Application of 29 isolates resulted in significant reductions in values of area under disease progress curve (AUDPC). The best five isolates were identified as Clonostachys rosea (Link) Schroers, Samuels, Seifert & Gams (syn. Gliocladium roseum) (Isolate EH), Trichothecium roseum (Pers.) Link (syn. Cephalothecium roseum) (Isolate H20) and Serratia marcescens (Bizio) (Isolates B15, Y15 and Y41). Three adjuvants (Break-ThruR (BK), PartnerR (PR) and Tween-80R (T-80)) were compared for their ability to improve efficacy of spray application of silicon (Si) and biocontrol agents (BCAs) against PM. Both BK and PR improved the efficacy of Si significantly (P < 0.05). Microscopic studies showed that BK affected PM fungi directly and enhanced the deposition of BCAs on the pathogen. Break-ThruR was only toxic to the pathogen mycelia when used at > 0.25 m. .-1, but phytotoxic to zucchini plants when used at > 0.45m. .-1. However, it did not affect the c.f.u. of bacterial BCAs. Use of BK at 0.2-0.4 m. .-1 can be recommended to assist spray application of Si (at 750 mg .-1) or BCAs for improved control of PM. The effect of concentration, frequency of application and runoff of Si sprays applied to the foliage was evaluated for control of PM of zucchini. Silicon (250-1000 mg .-1) + BK (0.25 m. .-1), was sprayed onto zucchini plants at frequencies of 1-3 wk-1. Spraying Si reduced the severity of PM significantly (P < 0.05). Regardless of the concentration of Si, the best results were obtained when the frequency of the treatment was increased, and when spray drift or spray runoff were allowed to reach the rhizosphere of the plants. When Si was applied onto leaves, direct contact between the spray and the pathogen resulted in mycelial death. Part of the spray (i.e., drift and runoff) was absorbed by plant roots, and subsequently played an important role in the health of the plants. If affordable, soluble Si should be included in nutrient solutions of hydroponics or supplied with overhead irrigation schemes when PM susceptible crops are grown. Under greenhouse conditions, application of BCAs, with or without Si, reduced the severity and development of PM significantly (P < 0.001). Application of Si significantly reduced the severity and AUDPC values of PM (P < 0.05 for both parameters). Silicon alone reduced the final disease level and AUDPC values of PM by 23-32%, and improved the efficacy of most BCAs. In the course of the investigation, antagonistic fungi consistently provided superior performances to bacterial isolates, providing disease control levels of up to 90%. Higher overall disease levels reduced the efficacy of Si against PM, but did not affect the efficacy of BCAs. Under field conditions, Si alone reduced disease by 32-70%, Isolate B15 reduced disease by 30-53% and Isolate B15 + Si reduced disease by 33-65%. Other BCAs applied alone or together with Si reduced the disease level by 9-68%. Most BCAs reduced AUDPC values of PM significantly. For most antagonists, better efficacy was obtained when Si was drenched into the rhizosphere of the plant. However, efficacy of some of the BCAs and Si were affected by environmental conditions in the field. Repeated trials and better understanding of how to use Si and the BCAs, in terms of their concentration and application frequency, and their interactions with the plant and the environment, are needed before they can be used for the commercial control of PM. Elemental analysis was conducted to determine the impact of differing application levels of silicon (Si) in a form of potassium silicate (KSi) in solution in terms of Si accumulation and selected elements in different tissues of zucchini and zinnia and growth of these plants, and to study the effect of PM on the levels of selected elements in these two plant species. Plants were grown in re-circulating nutrient solutions supplied with Si at different concentrations and elemental composition in different parts were analysed using EDX and ICP-OES. Increased levels of Si in the solution increased the levels of Si in leaves and roots of both plants without affecting its distribution to other plant parts. In zucchini, the roots accumulated the highest levels of Si, substantially more than in the shoots. In contrast with zinnia, accumulation of Si was highest in the leaves. Accumulation of potassium (K) in shoots of both plants increased with increased levels of KSi in the nutrient solution. However, K levels in flower of zinnia, fruits of zucchini and roots of both plants remained unaffected. Increased level of Si reduced accumulation of calcium (Ca) in both plants. Adding Si into the nutrient solution at 50 mg .-1 resulted in increased growth of zucchini and increased uptake of P, Ca, and Mg by both plant species. However, application of higher levels of Si did not result in any further biomass increase in zucchini. Levels of Si in the nutrient solution had no effects on elemental composition and characteristics of the fruits of zucchini. In both plant species, the presence of PM on the leaves of plants resulted in these leaves accumulating higher levels of Si and Ca, but less P, than leaves of uninfected plants exposed to the same levels of soluble Si. The highest concentrations of Si were observed in leaf areas infected with PM, and around the bases of trichomes. For optimum disease control and maximum accumulation of different elements in these two plants, hydroponic applications of Si at 50-150 mg .-1 is recommended. Five selected biocontrol agents and potassium silicate, used as source of soluble Si, were tested under hydroponic conditions at various concentrations against PM of zinnia (Glovinomyces cichoracearum (DC) Gelyuta, V.P.). Application of BCAs resulted in reductions in final disease level and AUDPC values of PM by 38-68% and 30-65%, respectively. Both severity and AUDPC values of PM were reduced by 87-95% when plants were supplied with Si (50-200 mg .-1). It is proposed that the provision of a continuous supply of Si and the ability of this plant species to accumulate high levels of Si in its leaves were the major reasons for the good response of zinnia to Si treatments against PM. Silicon played a protective role before infection and suppressed development of PM after infection. The combination of the best selected BCAs and Si can be used as an effective control option against PM of zinnia when grown in hydroponic system. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.
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Spatial distribution and dose-disease relationship of airborne ascospores of Venturia inaequalis on appleCharest, Jollin. January 2000 (has links)
Apple scab is the most important disease of apples in most of the world. The disease, caused by Venturia inaequalis, is controlled by numerous fungicide applications, regardless of the presence of inoculum in the orchard. Better timing of fungicide applications could be achieved if the airborne ascospore concentration (AAC) was considered in decision making. AAC can be measured in real time using spore traps. In this project, the relationship between AAC and lesions development was studied under controlled and natural conditions for five cultivars: Empire, McIntosh, Jonagold, Royal Gala, and Spartan. Potted trees were exposed to different airborne ascospore inoculum and the corresponding AAC were measured using spore traps. The spatial distribution of ascospores was studied in a commercial apple orchard plot. The potential ascospore dose (PAD) and the AAC were measured in 40 quadrats in the spring of 1999. (Abstract shortened by UMI.)
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Spatial distribution and dose-disease relationship of airborne ascospores of Venturia inaequalis on appleCharest, Jollin. January 2000 (has links)
No description available.
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Development of an integrated pest management system for vine mealybug, Planococcus ficus (Signoret), in vineyards in the Western Cape Province, South AfricaWalton, Vaughn M. (Vaughn Martin) 03 1900 (has links)
Dissertation (PhD)--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: A survey was conducted in the Western Cape Province during the 1999/2000
and 2000/2001 seasons on mealybugs occurring in vineyards. P/anococcus
ficus (Signoret) was the dominant mealybug in vineyards during this time.
During this study P. ficus was recorded for the first time on roots of
grapevines, which has far reaching implications for the control of this
important vine leafroll virus vector as control actions were focused on above
ground control. Other mealybugs presently recorded in local vineyards
included Pseudococcus /ongispinus (Targioni) and Ferrisia ma/vastra
(McDaniel). Pseudococcus viburni (Maskell) and Ps. so/ani Ferris were found
on weeds in vineyards. Natural enemies of P. ficus recorded most frequently
were species of Nephus predatory beetles, and the parasitaids
Coccidoxenoides peregrinus (Timberlake), Anagyrus sp. and Leptomastix
dacty/opii (Howard).
Developmental studies on P. ficus and C. peregrinus indicated that the
intrinsic rate of increase (rm) was similar, peaking at 25°C (rm = 0.169 for P.
ficus; rm = 0.149 for C. peregrinus). The net replacement rate (Ra) was higher
for P. ficus than for C. peregrinus at all five temperatures tested. The Ra for
P. ficus reached a maximum at 21°C (308.87) and C. peregrinus at 25°C for
C. peregrinus (69.94). The lower and upper thresholds for development of P.
ficus were estimated at 16.59 and 35.61°C respectively. The lower threshold
for development of C. peregrinus was 8.85°C. These parameters indicated
that both insects were well adapted to temperatures in the Western Cape Province. The lower minimum threshold temperature of C. peregrinus in
relation to that of P. ficus suggests that C. peregrinus should be more active
during winter and early spring than P. ficus.
A central systematic presence-absence sampling system was developed for
P. ficus. Monitoring three different plant parts on the vine indicated that new
growth areas on vines adjacent to the main stem could serve as an early
warning system for pending P. ficus bunch infestations. Intervention should
be planned when 2 % of the stems are infested with P. ficus when using this
system.
Seasonal population studies of P. ficus and its natural enemies showed that
stem infestation by P. ficus reached peak levels during January in Robertson
and Stellenbosch and during February in the Hex River Valley. Vine
mealybugs colonised new growth early in the season, followed by the leaves
and eventually the bunches towards the end of the season. High stem
infestations early in the season resulted in high bunch infestation levels at
harvest. A density dependent relationship was evident between P. ficus
populations and parasitoid populations, suggesting that the parasitoids played
a mayor role in the biological control of P. ficus populations. Biological control
was however only achieved towards the end of the season when damage to
the crop had already occurred.
Mass releases of C. peregrinus on P. ficus populations were done in order to
augment biological control as an alternative to chemical control. Between five and six releases of 20 000 C. peregrinus per release were done at monthly
intervals in three grapegrowing areas. Mass released C. peregrinus
controlled P. ficus adequately in the Hex River Valley. Control of P. ficus
using this approach was no worse than using chemical control in Robertson
and Stellenbosch. C. peregrinus is commercially available and can therefore
be used as an alternative to chemical control by producers.
Degree day estimation was used to predict development of P. ficus
populations. This information was used as an input in a P. ficus pest
management model. Data acquired from P. ficus and ant monitoring were
used as components to construct a decision chart. This chart can be used by
producers to optimise the control of P. ficus populations using either chemical
control or mass releases of C. peregrinus. / AFRIKAANSE OPSOMMING: "n Studie is gedurende die 1999/2000 en 2000/2001 seisoene gedoen met die
doelom die witluisspesies wat in wingerde voorkom, te identifiseer.
Planococcus ficus (Signoret) is tans die dominante witluisspesie in wingerde
in die Wes Kaap Provinsie. P. ficus kolonies is op wingerdwortels gevind.
Dié bevinding kan verreikende gevolge hê vir die beheer van dié plaag as "n
belangrike rolbladvirus vektor aangesien beheer tot dusver gefokus het op
bogrondse gedeeltes. Ander witluisspesies wat in wingerde gevind is, sluit in
Pseudococcus /ongispinus (Targioni) en Ferrisia malvastra (McDaniel).
Pseudococcus vibumi (Maskell) en Ps. so/ani Ferris is op onkruide in
wingerde gevind. Dominante natuurlike vyande van P. ficus sluit predatoriese
kewertjies van verskeie Nephus spp. en die parasitoïede Coccidoxenoides
peregrinus (Timberlake), Anagyrus sp. en Leptomastix dacty/opii (Howard) in.
Ontwikkelingstudies op P. ficus en C. peregrinus het aangetoon dat die
inhirente voortplantingstempo (rm) soortgelyk was vir beide insekte met "n
maksimum by 25°C (0.169 vir P. ficus, 0.149 vir C. peregrinus). Die netto
vervangingstempo (Ra) was in vergelyking met C. peregrinus hoër vir P. ficus
by al vyf temperature getoets. Die Ra van P. ficus het "n maksimum bereik
teen 21°C (308.87) en die van e. peregrinus by 25°C (69.94). Die teoretiese
hoër en laer drempels vir ontwikkeling van P. ficus was onderskeidelik 16.59
en 35.61 oe. Die teoretiese laer drempelwaarde van ontwikkeling vir e.
peregrinus was 8.85°e. Hierdie parameters dui aan dat beide insekte goed
aangepas is by temperature in die Wes Kaap Provinsie. Die laer minimum drempel vir ontwikkeling van C. peregrinus in verhouding tot P. ficus impliseer
dat C. peregrinus in die winter en vroeë lente meer aktief sal wees as P. ficus.
'n Sentrale sistematiese aan-afwesig moniteringsisteem met bekende vlakke
van steekproefnemingsfout is ontwikkel in kommersiële wingerde vir P. ficus.
Monitering van drie verskillende dele op die wingerdstok het aangedui dat die
nuwe groei areas kan dien as 'n vroeë waarskuwing vir latere P. ficus
trosinfestasies. Dié sisteem sal produsente in staat stelom te bepaal
wanneer optrede noodsaaklik is. Daar word voorgestel dat optrede
noodsaaklik is by 'n P. ficus besmettingsvlak van 2 % op die nuwe groei areas
op stokke.
Stambesmetting deur P. ficus het in Januarie piekvlakke bereik in
Stellenbosch en Robertson, en in Februarie in die Hex Rivier Vallei. P. ficus
koloniseer nuwe groei vroeg in die seisoen waarna blare en trosse aan die
einde van die seisoen gekoloniseer word. Dié data dui aan dat P. ficus
besmetting op nuwe groei vroeg in die seisoen 'n aanduiding kan gee van hoë
trosbesmetting aan die einde van die seisoen. 'n Digtheidsafhanklike
verwantskap was waarneembaar tussen P. ficus plaagpopulasies en
parasitoïed populasies. Dié verwantskap dui aan dat parasitoïede die
belangrikste rol speel in biologiese beheer van P. ficus populasies.
Biologiese beheer van witluis is egter eers aan die einde van die seisoen
bereik toe die oes reeds beskadig was.
Massavrylatings van C. peregrinus is in P. ficus besmette blokke gedoen om
biologiese beheer aan te help en sodoende as alternatief tot chemiese beheer te dien. Tussen vyf en ses vrylatings met 20 000 C. peregrinus is een keer
per maand gedurende die seisoen gedoen. Die vrygelate C. peregrinus het
P. ficus populasies voldoende beheer in die Hex Rivier Vallei. Beheer van P.
ficus deur massavrylatings van C. peregrinus was soortgelyk as chemiese
beheer in Robertson en Stellenbosch. C. peregrinus is kommersieel
beskikbaar en kan om hierdie rede as alternatief tot chemiese beheer gebruik
word.
Graaddag bepaling is gebruik om die ontwikkeling van P. ficus populasies te
voorspel. Hierdie inligting is gebruik as 'n verdere hulpmiddel in die P. ficus
plaagbeheermodel. Inligting verkry vanuit P. ficus en mier monitering is
gebruik as komponente in die opstel van 'n besluitnemingstabel. Hierdie tabel
kan gebruik word deur produsente om beheer van P. ficus plaagpopulasies te
optimaliseer deur chemiese beheer of massavrylatings van C. peregrinus.
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