Potential of selected natural products as repellents against vertebrate pests of crops

Tilly Gaoh, Abdouramane.

January 1999

No description available.

Vertebrate pests -- Biological control.

Neem.

Blaberus giganteus.

Rats -- Biological control.

The influence of cabbage cultivars on the fitness of Plutella xylostella (Linnaeus 1758) (Lepidoptera: Plutellidae) and its biological control agent Cotesia vestalis (haliday 1834) (Hymenoptera: Braconidae)

Nethononda, Phophi Dzivhuluwani

20 April 2016

The diamondback moth, Plutella xylostella (Linnaeus 1758.) (Lepidoptera: Plutellidae), is a major insect pest of Brassica crops in many parts of the world leading to economic losses amounting to an estimated US$ 4-5 billion. Although parasitoids (biological control agents) play a major role in suppressing the pest populations during November – May in South Africa, the pest reaches outbreak status during September and October due to low impact of parasitoids, which has necessitated regular application of insecticides. However, insecticide applications have often resulted in the pest developing resistance, and when coupled with the negative effects of several insecticides on parasitoids, integration of the two pest control strategies for effective management of P. xylostella population density has been difficult to achieve. One approach that has received little attention is integration of host plant resistance (bottom-up effect) and biological control (top-down effect) for effective management of P. xylostella. However, the interaction between host plants, the insect pest, and parasitoids is not simple and straight forward, as strong negative impact of host plants on fitness of the insect pest can be cascaded up the food chain and have a negative impact on a given parasitoid, which in turn may reduce the desired complementary effect between the two pest control strategies. To identify optimal interactions between cabbage (Brassica oleracea L. var. capitata, Brassicaceae), P. xylostella and its larval parasitoid Cotesia vestalis (Haliday 1834) (Hymenoptera: Braconidae), this study investigated (i) the effects of seven cabbage cultivars (Empowa, Hollywood F1, Megaton, Leano, Menzania, Beverley Hills and Karabo) on fitness parameters (survival, developmental time, pupal weights, longevity without food and oviposition rates) of P. xylostella; (ii) the influence of the same host plant cultivars on fitness parameters (developmental time, pupal weights, longevity xi without food, fecundity, emergence rate and sex ratio) of C. vestalis. Furthermore, net reproductive rates and the intrinsic rates of natural increase were calculated for C. vestalis that emerged from hosts fed on each of the cultivars. All experiments were conducted in climate-controlled laboratory rooms maintained at 22 ± 1 ºC (mean ± S.D.), 60 ± 5 % RH and 16L: 8D photoperiod. Under the no choice test, overall survival of P. xylostella immature stages was highest on Karabo (67.26%) and lowest on Megaton (44.92%). The larval and pupal developmental period, and generation time was prolonged on Empowa (18.48 days), Karabo (14.64 days) and Beverly Hills (17.48 days), while developmental period on Hollywood F1 (13.79 days) was shortest. Male and female P. xylostella pupal weights were lighter from larvae that fed on Megaton (4.13 and 4.65 mg), Menzania (4.53 and 4.91 mg), and Hollywood F1 (4.11 and 5.08 mg), whereas pupal weights from Karabo (6.0 and 6.82 mg) were the heaviest. Unfed female moths originally reared on Beverley Hills had the highest longevity (5.05 days), whereas those reared on Leano (3.54 days) and Megaton (3.89 days) had the shortest life span. Under the choice-test, P. xylostella moth laid significantly more eggs on Empowa (48.8%) and Hollywood F1 (45.6%) and least on Menzania (11.8%) and Leano (10.6%). Megaton was more resistant to P. xylostella due to lower survival rates of immature stages, lower pupal weights and moth longevity. The generation time of C. vestalis was shortest on Karabo (10.10 days) and Leano (10.38 days), and longest on Megaton (12.57 days) and Empowa (12.80 days). The highest pupal weight of C. vestalis was obtained from parasitoids reared from P. xylostella fed Menzania (5.4 mg), Megaton (5.25 mg) and Beverly Hills (4.85 mg) and the lightest on Karabo (3.8 mg). Parasitoids reared on larvae that fed on Hollywood F1 lived the longest (2.28 days) followed by Menzania (1.94 days) and Beverly Hills (1.8 days), whereas those whose hosts fed on Leano had shortest life span (0.83 days). Despite the parasitoids from Megaton hosts being heavier, their fecundity and number of female progeny per female (16.87 and 3.60, respectively) were lowest. Cotesia vestalis fecundity and daughters produced per female were highest on hosts fed on Menzania (38.00 and 9.13, respectively) and Beverly Hills (32.87 and 9.07, respectively). As a consequence, the net reproductive rate (R0) and intrinsic rate of increase (r) were higher on Menzania (7.87 and 0.58, respectively) and Beverly Hills (8.29 and 0.62, respectively). As survival and overall fitness of P. xylostella was lower on Megaton, this cultivar can play a major role in restricting population growth of this pest and thus generational number of eggs deposited on it during September and October. However, this strong bottom-up effect of Megaton on P. xylostella was cascaded up the food chain, as overall fitness of C. vestalis was lower on hosts developing on it. In contrast, the overall fitness of C. vestalis was higher on hosts that developed on Menzania and Beverly Hills. As these cultivars showed potential to sustain population density of C. vestalis at higher levels, it is also assumed that the period required for the parasitoid to reach the critical density to suppress the host population at a lower average density will be reached quicker than on other cultivars. Thus, their cultivation may improve biological control of P. xylostella during November–May in South Africa / Agriculture, Animal Health and Human Ecology / M. Sc. (Agriculture)

635.34978

Cabbage -- Diseases and pests

Diamondback moth -- Biological control

Plutellidae -- Biological control

Biological pest control agents

Pests -- Biological control

Biological control of the eucalypt borers, Phoracantha semipunctata (Fabricius) and P. recurva Newman (Coleoptera: Cerambycidae) in South Africa

Moore, Judy A.

12 1900

Thesis (MSc)--Stellenbosch University, 2003. / Full text to be digitised and attached to bibliographic record. / ENGLISH ABSTRACT: The losses incurred to by the South African hardwood industry because of damage caused by the larvae of the Australian eucalyptus borers Phoracantha semipunctata (Fabricius) and P. recurva Newman (Coleoptera: Cerambycidae) were countered by the introduction of various biological control agents. Megalyra fasciipennis Westwood (Hymenoptera: Ichneumonidae), restricted to the southwestern Cape for nearly 91 years after its probable establishment in 1910, is a specialist pupal parasitoid achieving a parasitism level of up to 52.5 %. It has an activity peak in early spring, which coincides with the pupation of a large percentage of its hosts that had overwintered as larvae. The average length of the ovipositor of M. fasciipennis (42.71 ± 5.33 mm S.D.) was longer than the average tunnel length (31.34 ± 11.85 mm S.D.) to the pupal chamber of Phoracantha spp, within the log despite variations in the thicknesses of the eucalypt stems. Stem thickness therefore did not adversely affect the level of parasitism. Megalyra fasciipennis adults are diurnal, with activity largely determined by temperature. Over 70 % were active between 25°C and 34 °C, the minimum threshold for activity being 16°C. Optimum temperature for oviposition was 30 °C. Males became active before the females and maximum oviposition occurred between 10hOOand 15hOO. In 1993, a host specific egg parasitoid, Avetianella longoi Siscaro (Hymenoptera: Encyrtidae), was introduced for the control of Phoracantha spp. A total of 7791 A. longoi adults and 80 parasitised eggs were released around Cape Town between 1993 and 1995 before establishment was confirmed. Dispersal was monitored annually and was determined to occur at a rate of 50 km/year. By 1998 A. longoi had dispersed 300 km north of Cape Town to Lutzville and 270 km east to Riversdal. Subsequent to a satellite release in Knysna during 1994, it has been established 40 km from this release site, at Plettenberg Bay. The parasitoid has also bridged a LO km expanse of ocean to establish on Robben Island, immediately off the west coast of Cape Town. Avetianella longoi has a preference for the eggs of P. semipunctata, which is the most likely cause for the decline in the population of P. semipunctata. However, P. recurva remains relatively unaffected. Average parasitism of Phoracantha spp. eggs by A. longoi was 59.4 %. An undescribed Cleonymus sp. (Hymenoptera: Pteromalidae) of unknown origin (the genus being widely distributed on several continents), was discovered in the Cape Peninsula parasitising late instar larvae of P. semipunctata and P. recurva. This ectoparasitoid lays its eggs (mean number per larva = 20.3 ± 15.2 S.D.) through the bark into the host chamber after the host has been paralysed. The host is entirely consumed and pupation takes place in the chamber with wasps emerging in the ratio of 1 male: 3 females. Although uncommon in the field, mass rearing of these wasps in culture was easily accomplished and a consignment was released in the Tzaneen district in 1993, where it was confirmed to have become established in 1996. Bark thickness constraints on the effectiveness of this parasitoid as a biological control agent because it's short ovipositor restricts the wasp to certain eucalypt species or trees with thin bark. The introduction into South Africa in 1995 and attempted establishment of the larval parasitoids, Syngaster lepidus Brullé (Hymenoptera: Braconidae), Jarra phoracantha Marsh & Austin (Hymenoptera: Braconidae) and J maculipennis Marsh & Austin proved unsuccessful in the Western Cape. However, the former two species were established in the Tzaneen district and their recruitment for release in the Western Cape should be considered. The present guild of biological control agents has been insufficient to give the required control. In the absence of biological control agents, intraspecific competition amongst host larvae is the major mortality factor. Although high levels of mortality are achieved as a result of parasitism despite the biological constraints of the parasitoids (e.g. the narrow activity peak of A. longoi and the restriction of Cleonymus sp. to thin barked eucalypts), their combined parasitism has succeeded in reducing the competition between host larvae, resulting in fewer yet larger host beetles emerging. The introduction of additional viable agents to assist in the biocontrol of Phoracantha spp. is required. / AFRIKAANSE OPSOMMING: Die verliese wat die Suid-Afrikaanse hardehoutbedryf ly as gevolg van skade veroorsaak deur die bloekomboorders Phoracantha semipunctata en P. recurva (Coleoptera: Cerambycidae), is bekamp deur die invoer van verskeie biologiese beheeragente. Megalyra fasciipennis Westwood (Hymenoptera: Ichneumonidae), beperk tot die Suidwes-Kaap vir byna 91 jaar nadat dit waarskynlik in 1910 daar gevestig is, is In spesialis papieparasitoïd wat In parasitismevlak van tot 52.5% bereik. Dit het In aktiwiteitspiek in die vroeë lente wat saamval met die papievorming van baie gasheerlarwes wat oorwinter het. Die gemiddelde lengte van die eierboor van M. fasciipennis (42.71 ± 5.33 mm S.A.) was langer as die gemiddelde tonnellengte (31.34 ± 11.85 mm S.A.) na die papieholte van die gasheer binne in die hout, ten spyte van die variasie in die dikte van die bloekomstamme. Stamdikte het dus nie In nadelige uitwerking op die vlak van parasitisme nie. Volwassenes van M.fasciipennis is bedags aktief en aktiwiteit word hoofsaaklik deur temperatuur bepaal. Meer as 70% was tussen 25°C en 34 °C aktief, met 16°C as die minimum drumpel vir aktiwiteit. Mannetjies het voor die wyfies aktief geword en maksimum eierlegging het tussen 10hOOen 15hOO plaasgevind. In 1993 is die gasheerspesifieke eierparasitoïd Avetianella longoi Siscaro (Hymenoptera: Encyrtidae) vir die beheer van Phoracantha spp. ingevoer. Van 1993 tot 1995 is 7791 volwassenes van A. longoi en 80 geparasiteerde eiers rondom Kaapstad vrygelaat en dis vasgestel dat die spesies gevestig het. Die verspreiding daarvan is jaarliks gemonitor en dis vasgestel dat dit teen 50 km per jaar plaasvind. Teen 1998 het dit versprei tot 300km noord van Kaapstad na Lutzville en 270 km oos na Riversdal. Na 'n satelliet-loslating by Knysna in 1994 het dit 40 km verder by Plettenbergbaai gevestig. Die parasitoïd het ook 10 km van die oseaan oorgesteek om op Robbeneiland, wes van Kaapstad te vestig. Avetianella longoi gee voorkeur aan die eiers van P. semipunctata en dis waarskynlik die rede vir die afname in die getalle van hierdie spesies, maar P.recurva word relatief min beïnvloed. Die gemiddelde graad van parasitisme van Phoracantha spp. was 59.4%. Dit is gevind dat 'n onbeskryfde Cleonymus sp. (Hymenoptera: Pteromalidae) van onbekende oorsprong (die genus kom wyd verspreid in verskeie vastelande voor) die laat instar larwes van P. semipunctata en P. recurva parasiteer. Hierdie ektoparasitoïd lê sy eiers (gemiddeld 20.3 ± 15.2 S.A.) in die gasheerholte nadat die gasheer eers verlam is. Die gasheer word heeltemalopgevreet en pupering vind plaas in die holte plaas. Volwassenes kom uit in verhoudingvan drie mannetjies tot een wyfie. Alhoewel skaars in die natuur, kan hierdie wesp maklik in massa geteel word. 'n Besending is in die Tzaneen distrik vrygestel en in 1996 is vasgestel dat hulle gevestig het. Basdikte is 'n beperkende faktor in die gebruik van hierdie parasitoïd as effektiewe beheeragent vir biologiese beheer omdat die kort lengte van die eierboor die wesp sal beperk tot bloekomsoorte met dun bas. Die invoer na Suid-Afrika in 1995 en vestiging van die larwale parasitoïde Syngaster lepidus Brullé (Hymenoptera: Braconidae), J. phoracantha Marsh & Austin (Hymenoptera: Braconidae) en J. maculipennis Marsh & Austin was onsuksesvol in dieWes-Kaap. Die twee spesies is egter in die distrik Tzaneen gevestig en versameling met die oog op loslating in die Wes-Kaap behoort oorweeg te word. Die huidige gilde van biologiese beheer-agente is onvoldoende om die vereiste graad van beheer te verskaf. In die afwesigheid van biologiese beheer-agente is intraspesifieke kompetisie tussen gasheerlarwes die belangrikste mortaliteitfaktor. Alhoewel hoë vlakke van mortaliteit as gevolg van parasitisme bereik word, ten spyte van die biologiese beperkings van die parasitoïde (bv. die kort aktiwiteitspiek van A. longoi en die beperking van Cleonymus tot bloekoms met dun bas), het die gekombineerde parasitisme daarin geslaag om die kompetisie tussen gasheerlarwes te verlaag, met die gevolg dat minder maar groter gasheerkewers verskyn het. Dit is dus nodig dat addisionele organismes gevestig word om by te dra tot die biologiese beheer van Phoracantha spp.

Big-eyed bugs as predators of the green peach aphid

Puls, Karl A.

14 October 1994

Graduation date: 1995

Green peach aphid -- Biological control

Geocoris

Assessing the value of public investment into biological control research for invasive alien plants : the ARC PPRI Weeds Research Division

Scarr, Lowell Martin

January 2016

This study investigates the economic impact of the ARC PPRI Weeds Research Division. The Division researches appropriate methods of biological control for invasive alien plants (IAPs). These plants pose an increasing threat to environmental integrity and ecosystem service provision impacting on economic potential. Since the work of the Division is considered a public good, a predominantly descriptive approach has been adopted for the valuation process. A combination of quantitative cost analysis and a qualitative study of the impacts of research and invasive alien plants is used to deal with the challenges associated with non-market valuation. The study found that investment into the Weeds Division is a valuable activity that supports the long-term growth potential of the South African economy. The role of a well-functioning environment is highlighted as an essential base for the creation of sustained growth opportunities in any society. It was determined that investment into the Division should be increased into the future to support efficient spending of scarce state funds. Biological control research was found to provide strategic future growth potential, creating opportunities for the development of a competitive advantage in the biotechnology and environmental management sectors. The study adds to the increasing move towards a more holistic view of economic valuation, taking factors other than pure finance and econometrics into consideration. This is an important shift in prevailing economic thought, as a realisation is reached that a single, or even triple, bottom line is an outdated and insufficient decision making basis.

Alien plants -- Biological control

Invasive plants -- Biological control

Alien plants -- Economic aspects

Invasive plants -- Economic aspects

Weeds -- Biological control

The influence of cabbage cultivars on the fitness of Plutella xylostella (Linnaeus 1758) (Lepidoptera: Plutellidae) and its biological control agent Cotesia vestalis (Haliday 1834) (Hymenoptera: Braconidae)

Nethononda, Phophi Dzivhuluwani

20 April 2016

The diamondback moth, Plutella xylostella (Linnaeus 1758.) (Lepidoptera: Plutellidae), is a major insect pest of Brassica crops in many parts of the world leading to economic losses amounting to an estimated US$ 4-5 billion. Although parasitoids (biological control agents) play a major role in suppressing the pest populations during November – May in South Africa, the pest reaches outbreak status during September and October due to low impact of parasitoids, which has necessitated regular application of insecticides. However, insecticide applications have often resulted in the pest developing resistance, and when coupled with the negative effects of several insecticides on parasitoids, integration of the two pest control strategies for effective management of P. xylostella population density has been difficult to achieve. One approach that has received little attention is integration of host plant resistance (bottom-up effect) and biological control (top-down effect) for effective management of P. xylostella. However, the interaction between host plants, the insect pest, and parasitoids is not simple and straight forward, as strong negative impact of host plants on fitness of the insect pest can be cascaded up the food chain and have a negative impact on a given parasitoid, which in turn may reduce the desired complementary effect between the two pest control strategies. To identify optimal interactions between cabbage (Brassica oleracea L. var. capitata, Brassicaceae), P. xylostella and its larval parasitoid Cotesia vestalis (Haliday 1834) (Hymenoptera: Braconidae), this study investigated (i) the effects of seven cabbage cultivars (Empowa, Hollywood F1, Megaton, Leano, Menzania, Beverley Hills and Karabo) on fitness parameters (survival, developmental time, pupal weights, longevity without food and oviposition rates) of P. xylostella; (ii) the influence of the same host plant cultivars on fitness parameters (developmental time, pupal weights, longevity xi without food, fecundity, emergence rate and sex ratio) of C. vestalis. Furthermore, net reproductive rates and the intrinsic rates of natural increase were calculated for C. vestalis that emerged from hosts fed on each of the cultivars. All experiments were conducted in climate-controlled laboratory rooms maintained at 22 ± 1 ºC (mean ± S.D.), 60 ± 5 % RH and 16L: 8D photoperiod. Under the no choice test, overall survival of P. xylostella immature stages was highest on Karabo (67.26%) and lowest on Megaton (44.92%). The larval and pupal developmental period, and generation time was prolonged on Empowa (18.48 days), Karabo (14.64 days) and Beverly Hills (17.48 days), while developmental period on Hollywood F1 (13.79 days) was shortest. Male and female P. xylostella pupal weights were lighter from larvae that fed on Megaton (4.13 and 4.65 mg), Menzania (4.53 and 4.91 mg), and Hollywood F1 (4.11 and 5.08 mg), whereas pupal weights from Karabo (6.0 and 6.82 mg) were the heaviest. Unfed female moths originally reared on Beverley Hills had the highest longevity (5.05 days), whereas those reared on Leano (3.54 days) and Megaton (3.89 days) had the shortest life span. Under the choice-test, P. xylostella moth laid significantly more eggs on Empowa (48.8%) and Hollywood F1 (45.6%) and least on Menzania (11.8%) and Leano (10.6%). Megaton was more resistant to P. xylostella due to lower survival rates of immature stages, lower pupal weights and moth longevity. The generation time of C. vestalis was shortest on Karabo (10.10 days) and Leano (10.38 days), and longest on Megaton (12.57 days) and Empowa (12.80 days). The highest pupal weight of C. vestalis was obtained from parasitoids reared from P. xylostella fed Menzania (5.4 mg), Megaton (5.25 mg) and Beverly Hills (4.85 mg) and the lightest on Karabo (3.8 mg). Parasitoids reared on larvae that fed on Hollywood F1 lived the longest (2.28 days) followed by Menzania (1.94 days) and Beverly Hills (1.8 days), whereas those whose hosts fed on Leano had shortest life span (0.83 days). Despite the parasitoids from Megaton hosts being heavier, their fecundity and number of female progeny per female (16.87 and 3.60, respectively) were lowest. Cotesia vestalis fecundity and daughters produced per female were highest on hosts fed on Menzania (38.00 and 9.13, respectively) and Beverly Hills (32.87 and 9.07, respectively). As a consequence, the net reproductive rate (R0) and intrinsic rate of increase (r) were higher on Menzania (7.87 and 0.58, respectively) and Beverly Hills (8.29 and 0.62, respectively). As survival and overall fitness of P. xylostella was lower on Megaton, this cultivar can play a major role in restricting population growth of this pest and thus generational number of eggs deposited on it during September and October. However, this strong bottom-up effect of Megaton on P. xylostella was cascaded up the food chain, as overall fitness of C. vestalis was lower on hosts developing on it. In contrast, the overall fitness of C. vestalis was higher on hosts that developed on Menzania and Beverly Hills. As these cultivars showed potential to sustain population density of C. vestalis at higher levels, it is also assumed that the period required for the parasitoid to reach the critical density to suppress the host population at a lower average density will be reached quicker than on other cultivars. Thus, their cultivation may improve biological control of P. xylostella during November–May in South Africa / Agriculture, Animal Health and Human Ecology / M. Sc. (Agriculture)

635.34978

Cabbage -- Diseases and pests

Diamondback moth -- Biological control

Plutellidae -- Biological control

Biological pest control agents

Pests -- Biological control

Biologiese beheer van plantparasitiese nematodes met die swam Paecilomyces lilacinus by aartappels, sitrus en wingerd

Neethling, Jacob van der Westhuizen

12 1900

Thesis (MSc)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: Paecilomyces Ii/acinus, ras 251 (geregistreer in terme van wet 36 van 1947 as Suid-Afrika se eerste natuurlike nematisiede en kommersieel beskikbaar as PI Plus) is as biologiese beheer agent getoets by aartappels en in geïntegreerde beheer programme by sitrus en wingerd teen respektiewelik Me/oidogyne species, Ty/enchu/us semipenetrans en verskeie ektoparasitiese nematodes. Die swam toon belofte vir die beheer van hierdie nematodes en het terselfdertyd nie 'n nadelige effek op nie-teiken, voordelige organismes in die grond nie. Veral in kombinasie met chemiese middels, as deel van geïntegreerde programme, kan dit lei tot verminderde gebruik van hoogs toksiese middels en dus meer omgewingsvriendelike landboupraktyke. Biological control of plant parasitic nematodes on potatoes, citrus and grapevine with the fungus, Paecilomyces liIacinus. Paecilomyces liIacinus, race 251 (registered in terms of act 36 of 1947 as South Africa's first natural nematicide, commercially available as PI Plus) was tested as a biological control agent on potatoes and in integrated control programs on citrus and grapevine against Me/oidogyne species, Ty/enchu/us semipenetrans and various ectoparasitic nematodes respectively. The fungus shows promise for the control of these nematodes, without having a harmful effect on non-target, beneficial organisms in the soil. Especially in combination with chemical products, as part of integrated programs, this can lead to less use of highly toxic compounds and thus to more environmentally friendly agricultural practices. / AFRIKAANSE OPSOMMING: Sedert die ontdekking van die swam, Paeci/omyces Ii/acinus (Thom.) Samson as 'n effektiewe eierparasiet van Meloidogyne incognita acrita en Globodera pal/ida (Jatala et al., 1979) het verdere veldproewe in Peru tot die effektiewe beheer van M. incognita en Tylenchulus semipenetrans gelei. Na verskeie suksesse in Peru is die swam onder verskillende klimaat- en grondkondisies in verskeie ander lande beproef. Die sukses behaal in die Filippyne het gelei tot die kommersiële produksie van die swam onder die handelsnaam Biocon. Anders as met chemiese middels vind die werking van biologiese agente stadig oor tyd plaas. Biologiese beheer sal nie chemiese beheer sonder meer kan vervang nie. Dit behoort egter deel te vorm van geïntegreerde nematode bestuur. Inkorporering van die natuurlike organismes, die oordeelkundige gebruik van chemiese nematisiedes, moontlik in kombinasie met die biobeheer agente, weerstand, en ander kulturele praktyke moet ernstig oorweeg word as ons hoop om die steeds groeiende wêreldbevolking te voed (Jatala, 1986). Paecilomyces liIacinus, ras 251, Suid-Afrika se eerste geregistreerde natuurlike nematisiede, kommersieel beskikbaar as PI Plus, is in die Olifantsrivier besproeiingsgebied geëvalueer vir die bestuur van ekonomies belangrike plantparasitiese nematodes by aartappels, sitrus en wingerd. Hierdie gewasse is belangrike bedryfstakke van die streek en is onderhewig aan skade deur nematodes wat die opbrengs nadelig beïnvloed. Chemiese beheer bied slegs 'n korttermyn oplossing vir nematode probleme en skadelike getalle word in 'n kort tyd weer opgebou. Boonop lei dié hoogs toksiese middels tot agteruitgang van die omgewing en sy waterbronne. Die toenemende besorgdheid hieroor en die groot potensiaal van biologiese beheer agente (Jatala, 1986) was die hoofrede vir die werk waaroor hier gerapporteer word.

Paecilomyces

Plant nematodes -- Biological control

Fungi as biological pest control agents

Fungi in agriculture

Secretin: a putative factor in regulating body water homeostasis

Chu, Yan-shuen, Jessica., 朱恩璿

January 2008

published_or_final_version / abstract / Biological Sciences / Doctoral / Doctor of Philosophy

Secretin.

Homeostasis.

Body fluids.

Biological control systems.

Ecological enhancement of an aphid parasitoid

Tylianakis, Jason

January 2002

Insects have become increasingly resistant to chemical control methods, while at the same time public awareness of the harmful effects of synthetic pesticides has increased. The search for more environmentally 'friendly' means of pest suppression is gaining momentum and biological control (the use of natural enemies to reduce populations of noxious organisms) has become an increasingly sought-after option. Despite an increase in the establishment rate of insect natural enemies, classical biological control of arthropods is currently no more successful than it was one hundred years ago. Ecological theory relevant to population biology, food webs and diversity provides insight into how biological control agents can be made more effective, yet this theory has often been absent from the biological control literature. Examples of the use of ecological concepts (including intraguild predation, life-history omnivory and resource subsidies) in practical biological control are reviewed, and aspects of theory not yet considered in this context are discussed. Cereals are important as primary food crops, globally and within New Zealand. Possibly the greatest amount of damage sustained by cereal crops in New Zealand is caused by aphids and chemical control of these pests is very expensive relative to biological control. This thesis examines how biological control of the rose-grain aphid Metopolophium dirhodum (Walker) (Hemiptera: Aphidiidae) by the koinobiont, synovigenic endoparasitoid Aphidius rhopalosiphi De Stefani-Perez (Hymenoptera: Aphidiidae) can be enhanced by floral resource subsidies. The mechanisms underlying this enhancement were determined in a series of laboratory experiments and then tested in laboratory microcosms and in the field. Sugar resources significantly increased longevity and egg load in A. rhopalosiphi and another species of aphidiid, Diaeretiella rapae McIntosh. Pollen had no significant effect on longevity or egg load in these species. These results are discussed in terms of the effects of resource subsidies on egg- versus time-limitation. Laboratory microcosm experiments tested whether the mechanisms of increased potential fecundity via enhanced egg load and longevity translate into increased rates of parasitism (i.e., realised fecundity). Only treatments receiving sugar showed increased reproductive success. The presence of flowering buckwheat Fagopyrum esculentum Moench (c.v. Kitawase) (Polygonaceae) plants caused a slight, non-significant increase in rates of parasitism. Field surveys of natural aphid populations in a wheat Triticum aestivum (L.) (c.v. Otane) (Gramineae) field showed that proximity to floral buckwheat patches, distance to the nearest edge or the leeward end of the field were not significantly correlated with rates of parasitism. These variables were significantly correlated with aphid density in some surveys. Rates of parasitism were not correlated with aphid density. When aphid population density was controlled by experimental placement of aphids, proximity to floral resource patches significantly affected rates of parasitism. Parasitism rates were highest at the edges of buckwheat patches and declined exponentially with distance, eventually reaching zero beyond 14 m. Lower levels of parasitism were observed within the floral patches than at their edges. This phenomenon is compatible with the concept of spatio-temporal partitioning between parasitoid feeding and host-searching behaviours. Potential costs (increased predation risk, opportunity costs) and benefits (increased fecundity and longevity) associated with floral feeding by parasitoids, and temporal variation in these factors, are discussed. It is concluded that resource subsidies are not only effective in the practical enhancement of the efficacy of a specific biological control agent, but their use is based on a sound foundation in ecological theory that allows extension of these principles across taxa.

biological control

aphid

parasitoid

conservation

resource subsidy

Molecular characterisation of a Bacillus thuringiensis genetic locus

Dunn, Michael G.

January 1996

No description available.

572.8