General biology and reproductive fitness of Tasmanian lacewing, Micromus tasmaniae Walker : a thesis presented in partial fulfllment of the requirements for the degree of Master of Science in Plant Protection at the Institute of Natural Resources, Massey University, Palmerston North, New Zealand

Yadav, Anand

January 2009

Tasmanian lacewing, Micromus tasmaniae Walker, is an important predator of a number of economically important pests such as aphids. This study was conducted to investigate some aspects of general biology and factors affecting the reproductive fitness of this species Emergence of M. tasmaniae peaked 3 h before light off and there was no significant difference in emergence patterns between males and females. Males became sexually mature earlier than females. Mating success significantly increased from the first to the eleventh hour after lights on. Predation, development and oviposition of M. tasmaniae were affected when reared under different photoperiods [i.e. 24:0, 16:8, 12:12, 0:24 h (light:dark)]. Results indicate that no individuals entered diapause at either an immature or adult stage. M. tasmaniae larvae could feed in both the photophase and scotophase and late instar larvae consumed significantly more aphids than early instar larvae. M. tasmaniae reared at 16:8 h developed faster and had lower mortality, heavier adult body weight and higher reproductive output in terms of fecundity and fertility rate. Therefore, mass-rearing programmes are recommended to be carried out at 16:8 h to obtain the higher quality of individuals and faster increase of populations. The larger-the better theory predicts that the reproductive fitness is positively linearly associated with body size or weight. However, the body weight of female M. tasmaniae had no effect on the reproductive fitness in terms of fecundity, fertility, fertility rate, oviposition period and longevity. The male body weight may contribute to the population growth of M. tasmaniae as the average females that mated with average or heavy males had significantly higher fecundity, fertility and fertility rate and longer reproductive period. These results suggest that development of any control method that should selectively mass-produce heavy and average individuals in the laboratory would help increasing M. tasmaniae quality and populations. M. tasmaniae is a polygamous species. Results indicate that female remating either with the same or different males was crucial for maximizing their reproductive success. Males could inseminate up to eight females and father about one thousand offspring during their life span.

Tasmanian lacewing

Micromus tasmaniae

pest predators

plant protection

General biology and reproductive fitness of Tasmanian lacewing, Micromus tasmaniae Walker : a thesis presented in partial fulfllment of the requirements for the degree of Master of Science in Plant Protection at the Institute of Natural Resources, Massey University, Palmerston North, New Zealand

Yadav, Anand

January 2009

Tasmanian lacewing, Micromus tasmaniae Walker, is an important predator of a number of economically important pests such as aphids. This study was conducted to investigate some aspects of general biology and factors affecting the reproductive fitness of this species Emergence of M. tasmaniae peaked 3 h before light off and there was no significant difference in emergence patterns between males and females. Males became sexually mature earlier than females. Mating success significantly increased from the first to the eleventh hour after lights on. Predation, development and oviposition of M. tasmaniae were affected when reared under different photoperiods [i.e. 24:0, 16:8, 12:12, 0:24 h (light:dark)]. Results indicate that no individuals entered diapause at either an immature or adult stage. M. tasmaniae larvae could feed in both the photophase and scotophase and late instar larvae consumed significantly more aphids than early instar larvae. M. tasmaniae reared at 16:8 h developed faster and had lower mortality, heavier adult body weight and higher reproductive output in terms of fecundity and fertility rate. Therefore, mass-rearing programmes are recommended to be carried out at 16:8 h to obtain the higher quality of individuals and faster increase of populations. The larger-the better theory predicts that the reproductive fitness is positively linearly associated with body size or weight. However, the body weight of female M. tasmaniae had no effect on the reproductive fitness in terms of fecundity, fertility, fertility rate, oviposition period and longevity. The male body weight may contribute to the population growth of M. tasmaniae as the average females that mated with average or heavy males had significantly higher fecundity, fertility and fertility rate and longer reproductive period. These results suggest that development of any control method that should selectively mass-produce heavy and average individuals in the laboratory would help increasing M. tasmaniae quality and populations. M. tasmaniae is a polygamous species. Results indicate that female remating either with the same or different males was crucial for maximizing their reproductive success. Males could inseminate up to eight females and father about one thousand offspring during their life span.

Tasmanian lacewing

Micromus tasmaniae

pest predators

plant protection

General biology and reproductive fitness of Tasmanian lacewing, Micromus tasmaniae Walker : a thesis presented in partial fulfllment of the requirements for the degree of Master of Science in Plant Protection at the Institute of Natural Resources, Massey University, Palmerston North, New Zealand

Yadav, Anand

January 2009

Tasmanian lacewing, Micromus tasmaniae Walker, is an important predator of a number of economically important pests such as aphids. This study was conducted to investigate some aspects of general biology and factors affecting the reproductive fitness of this species Emergence of M. tasmaniae peaked 3 h before light off and there was no significant difference in emergence patterns between males and females. Males became sexually mature earlier than females. Mating success significantly increased from the first to the eleventh hour after lights on. Predation, development and oviposition of M. tasmaniae were affected when reared under different photoperiods [i.e. 24:0, 16:8, 12:12, 0:24 h (light:dark)]. Results indicate that no individuals entered diapause at either an immature or adult stage. M. tasmaniae larvae could feed in both the photophase and scotophase and late instar larvae consumed significantly more aphids than early instar larvae. M. tasmaniae reared at 16:8 h developed faster and had lower mortality, heavier adult body weight and higher reproductive output in terms of fecundity and fertility rate. Therefore, mass-rearing programmes are recommended to be carried out at 16:8 h to obtain the higher quality of individuals and faster increase of populations. The larger-the better theory predicts that the reproductive fitness is positively linearly associated with body size or weight. However, the body weight of female M. tasmaniae had no effect on the reproductive fitness in terms of fecundity, fertility, fertility rate, oviposition period and longevity. The male body weight may contribute to the population growth of M. tasmaniae as the average females that mated with average or heavy males had significantly higher fecundity, fertility and fertility rate and longer reproductive period. These results suggest that development of any control method that should selectively mass-produce heavy and average individuals in the laboratory would help increasing M. tasmaniae quality and populations. M. tasmaniae is a polygamous species. Results indicate that female remating either with the same or different males was crucial for maximizing their reproductive success. Males could inseminate up to eight females and father about one thousand offspring during their life span.

Tasmanian lacewing

Micromus tasmaniae

pest predators

plant protection

General biology and reproductive fitness of Tasmanian lacewing, Micromus tasmaniae Walker : a thesis presented in partial fulfllment of the requirements for the degree of Master of Science in Plant Protection at the Institute of Natural Resources, Massey University, Palmerston North, New Zealand

Yadav, Anand

January 2009

Tasmanian lacewing, Micromus tasmaniae Walker, is an important predator of a number of economically important pests such as aphids. This study was conducted to investigate some aspects of general biology and factors affecting the reproductive fitness of this species Emergence of M. tasmaniae peaked 3 h before light off and there was no significant difference in emergence patterns between males and females. Males became sexually mature earlier than females. Mating success significantly increased from the first to the eleventh hour after lights on. Predation, development and oviposition of M. tasmaniae were affected when reared under different photoperiods [i.e. 24:0, 16:8, 12:12, 0:24 h (light:dark)]. Results indicate that no individuals entered diapause at either an immature or adult stage. M. tasmaniae larvae could feed in both the photophase and scotophase and late instar larvae consumed significantly more aphids than early instar larvae. M. tasmaniae reared at 16:8 h developed faster and had lower mortality, heavier adult body weight and higher reproductive output in terms of fecundity and fertility rate. Therefore, mass-rearing programmes are recommended to be carried out at 16:8 h to obtain the higher quality of individuals and faster increase of populations. The larger-the better theory predicts that the reproductive fitness is positively linearly associated with body size or weight. However, the body weight of female M. tasmaniae had no effect on the reproductive fitness in terms of fecundity, fertility, fertility rate, oviposition period and longevity. The male body weight may contribute to the population growth of M. tasmaniae as the average females that mated with average or heavy males had significantly higher fecundity, fertility and fertility rate and longer reproductive period. These results suggest that development of any control method that should selectively mass-produce heavy and average individuals in the laboratory would help increasing M. tasmaniae quality and populations. M. tasmaniae is a polygamous species. Results indicate that female remating either with the same or different males was crucial for maximizing their reproductive success. Males could inseminate up to eight females and father about one thousand offspring during their life span.

Tasmanian lacewing

Micromus tasmaniae

pest predators

plant protection

General biology and reproductive fitness of Tasmanian lacewing, Micromus tasmaniae Walker : a thesis presented in partial fulfllment of the requirements for the degree of Master of Science in Plant Protection at the Institute of Natural Resources, Massey University, Palmerston North, New Zealand

Yadav, Anand

January 2009

Tasmanian lacewing, Micromus tasmaniae Walker, is an important predator of a number of economically important pests such as aphids. This study was conducted to investigate some aspects of general biology and factors affecting the reproductive fitness of this species Emergence of M. tasmaniae peaked 3 h before light off and there was no significant difference in emergence patterns between males and females. Males became sexually mature earlier than females. Mating success significantly increased from the first to the eleventh hour after lights on. Predation, development and oviposition of M. tasmaniae were affected when reared under different photoperiods [i.e. 24:0, 16:8, 12:12, 0:24 h (light:dark)]. Results indicate that no individuals entered diapause at either an immature or adult stage. M. tasmaniae larvae could feed in both the photophase and scotophase and late instar larvae consumed significantly more aphids than early instar larvae. M. tasmaniae reared at 16:8 h developed faster and had lower mortality, heavier adult body weight and higher reproductive output in terms of fecundity and fertility rate. Therefore, mass-rearing programmes are recommended to be carried out at 16:8 h to obtain the higher quality of individuals and faster increase of populations. The larger-the better theory predicts that the reproductive fitness is positively linearly associated with body size or weight. However, the body weight of female M. tasmaniae had no effect on the reproductive fitness in terms of fecundity, fertility, fertility rate, oviposition period and longevity. The male body weight may contribute to the population growth of M. tasmaniae as the average females that mated with average or heavy males had significantly higher fecundity, fertility and fertility rate and longer reproductive period. These results suggest that development of any control method that should selectively mass-produce heavy and average individuals in the laboratory would help increasing M. tasmaniae quality and populations. M. tasmaniae is a polygamous species. Results indicate that female remating either with the same or different males was crucial for maximizing their reproductive success. Males could inseminate up to eight females and father about one thousand offspring during their life span.

Tasmanian lacewing

Micromus tasmaniae

pest predators

plant protection

General biology and reproductive fitness of Tasmanian lacewing, Micromus tasmaniae Walker : a thesis presented in partial fulfllment of the requirements for the degree of Master of Science in Plant Protection at the Institute of Natural Resources, Massey University, Palmerston North, New Zealand

Yadav, Anand

January 2009

Tasmanian lacewing, Micromus tasmaniae Walker, is an important predator of a number of economically important pests such as aphids. This study was conducted to investigate some aspects of general biology and factors affecting the reproductive fitness of this species Emergence of M. tasmaniae peaked 3 h before light off and there was no significant difference in emergence patterns between males and females. Males became sexually mature earlier than females. Mating success significantly increased from the first to the eleventh hour after lights on. Predation, development and oviposition of M. tasmaniae were affected when reared under different photoperiods [i.e. 24:0, 16:8, 12:12, 0:24 h (light:dark)]. Results indicate that no individuals entered diapause at either an immature or adult stage. M. tasmaniae larvae could feed in both the photophase and scotophase and late instar larvae consumed significantly more aphids than early instar larvae. M. tasmaniae reared at 16:8 h developed faster and had lower mortality, heavier adult body weight and higher reproductive output in terms of fecundity and fertility rate. Therefore, mass-rearing programmes are recommended to be carried out at 16:8 h to obtain the higher quality of individuals and faster increase of populations. The larger-the better theory predicts that the reproductive fitness is positively linearly associated with body size or weight. However, the body weight of female M. tasmaniae had no effect on the reproductive fitness in terms of fecundity, fertility, fertility rate, oviposition period and longevity. The male body weight may contribute to the population growth of M. tasmaniae as the average females that mated with average or heavy males had significantly higher fecundity, fertility and fertility rate and longer reproductive period. These results suggest that development of any control method that should selectively mass-produce heavy and average individuals in the laboratory would help increasing M. tasmaniae quality and populations. M. tasmaniae is a polygamous species. Results indicate that female remating either with the same or different males was crucial for maximizing their reproductive success. Males could inseminate up to eight females and father about one thousand offspring during their life span.

Tasmanian lacewing

Micromus tasmaniae

pest predators

plant protection

Seletividade de agrotóxicos utilizados na cultura do pessegueiro ao predador Chrysoperla externa (Hagen, 1861) (Neuroptera: Chrysopidae) / Side-effects of pesticides used in peach orchards to Chrysoperla externa (Hagen, 1861) (Neuroptera: Chrysopidae)

Castilhos, Rodolfo Vargas

08 March 2010

Made available in DSpace on 2014-08-20T14:07:34Z (GMT). No. of bitstreams: 1 dissertacao_rodolfo_vargas_castilhos.pdf: 378851 bytes, checksum: 0d6e42041b0313486f844bb4e5027f75 (MD5) Previous issue date: 2010-03-08 / In peach crops, the chemical control is the most used method in pest management, however, in sustainable production systems such as the Integrated Peach Production (IPP), alternative methods based on Integrated Pest Management (IPM) are commended. The natural enemies preservation is one of the most important practices on IPM, so, the use of pesticides that are selective to these organisms should be encouraged, in order to enable the chemical and biological control association. Therefore, this work aimed to evaluate the side effects of sixteen pesticides used in conventional and integrated peach production on larvae and adults of Chrysoperla externa (Hagen, 1861) (Neuroptera: Chrysopidae), under laboratory bioassays (25±1oC temperature, 70±10% relative humidity, and 14h photophase), using the International Organization for Biological and Integrated Control of Noxious Animals and Plants (IOBC) standard methodology. The larval and adults bioassays consisted on the exposure of the insects to a fresh dry pesticide film applied on glass plates. In the larval bioassays, the duration time of each development stage, the mortality, the fecundity and fertility of survival adults were evaluated. In the adults bioassays, it was evaluated the cumulative mortality at 24, 72 and 120 hours after the residual exposure of the insects. The pesticides were classified according to the total toxic effect for the larval stage, and according to the mortality rate for adults, in harmless (<30%), slightly harmful (30-79%), moderately harmful (80-99%) and harmful (>99%), in conformity to IOBC recommendation. For the pesticides [commercial product (active ingredient - % of active ingredient in spray water) evaluated, it follows that: the fungicides Amistar 500 WG (azoxystrobine 0.016), Cuprozeb (mancozeb and cooper oxichloride 0.140 and 0.096), Dodex 450 SC (dodina 0.126), Folpan Agricur 500 WP (folpete 0.200), Manzate 800 (mancozeb 0.256) and Orthocide 500 (captan 0.192); the insecticides Assist (mineral oil 1 2.420) and Oppa (mineral oil 2 1.920); the insecticide/acaricide Vertimec 18 CE (abamectin 0.002) and the herbicide Roundup (gliphosate 1.440) are harmless to larvae and adults of C. externa. The fungicide Folicur 200 EC (tebuconazole 0.320) is slightly harmful for larvae and harmless for adults of C. externa. The insecticide Decis 25 EC (deltametrin 0.002) is moderately harmful and slightly harmful to larvae and adults of the predator, respectively. The herbicide Gramoxone (paraquat dichloride 0.300) is harmful to larvae and harmless to adults, and the insecticide Agritoato 400 (dimetoate 0.160), Imidam 500 WP (fosmet 0.160) e Malathion 500 EC (malathiona 0.240) are harmful to larvae and adults of C. externa. The fecundity and fertility of emerged adults when larvae were exposed to the chemical residuals are not significatively affected by anyone of them. Female adults are less susceptible to chemicals when compared to male adults. / Na cultura do pessegueiro, a utilização do controle químico se constitui na tática mais adotada no manejo dos insetos-praga, porém, nos sistemas de produção sustentáveis como o de Produção Integrada de Pêssego (PIP), medidas alternativas de controle, fundamentadas no Manejo Integrado de Pragas (MIP), são preconizadas. A preservação dos inimigos naturais de insetos-praga é uma das práticas de maior importância no MIP, devendo ser incentivado o uso de agrotóxicos seletivos a estes organismos benéficos, a fim de se viabilizar a associação dos métodos de controle químico e biológico. Neste contexto, objetivou-se com este trabalho avaliar a seletividade de dezesseis agrotóxicos utilizados na produção convencional e parte na produção integrada de pêssego sobre os estágios larval e adulto do predador Chrysoperla externa (Hagen, 1861) (Neuroptera: Chrysopidae), em bioensaios conduzidos em laboratório (temperatura de 25±1oC, umidade relativa de 70±10% e fotofase de 14 horas), utilizando-se metodologia padronizada pela International Organization for Biological and Integrated Control of Noxious Animals and Plants (IOBC). Os bioensaios com larvas e adultos consistiram na exposição do inseto a resíduos secos dos agrotóxicos pulverizados sobre placas de vidro. Nos bioensaios com larvas foram avaliadas a duração dos estágios de desenvolvimento, a mortalidade, e as taxas de fecundidade e fertilidade dos adultos sobreviventes. Nos bioensaios com adultos, foi avaliada a mortalidade acumulada as 24, 72 e 120 horas após a exposição dos insetos aos resíduos dos agrotóxicos. Para o estágio larval, os agrotóxicos foram classificados em função do efeito total e para o estágio adulto os mesmos foram classificados em função da taxa de mortalidade em inócuos (<30%), levemente nocivos (30-79%), moderadamente nocivos (80-99%) e nocivos (>99%), conforme recomendação da IOBC. Para os agrotóxicos [produto comercial (ingrediente ativo - % de ingrediente ativo na calda)] avaliados, conclui-se que: os fungicidas Amistar 500 WG (azoxystrobina - 0,016), Cuprozeb (mancozebe e oxicloreto de cobre - 0,140 e 0,096), Dodex 450 SC (dodina - 0,126), Folpan Agricur 500 WP (folpete - 0,200), Manzate 800 (mancozebe - 0,256) e Orthocide 500 (captana - 0,192); os inseticidas Assist (óleo mineral 1 - 2,420) e Oppa (óleo mineral 2 - 1,920); o inseticida/acaricida Vertimec 18 CE (abamectina - 0,002) e o herbicida Roundup (glifosato - 1,440) são inócuos a larvas e adultos de C. externa. O fungicida Folicur 200 EC (tebuconazole - 0,320) é levemente nocivo para larvas e inócuo para adultos. O inseticida Decis 25 EC (deltametrina - 0,002) é moderadamente nocivo e levemente nocivo para larvas e adultos do predador, respectivamente. O herbicida Gramoxone (dicloreto de paraquate - 0,300) é nocivo para larvas e inócuo para adultos, e os inseticidas Agritoato 400 (dimetoato - 0,160), Imidam 500 WP (fosmete - 0,160) e Malathion 500 EC (malationa - 0,240) são nocivos para larvas e adultos de C. externa. A fecundidade e fertilidade de adultos emergidos de C. externa não são afetadas significativamente por nenhum agrotóxico quando larvas são expostas a resíduos dos mesmos. Fêmeas adultas são menos susceptíveis aos agrotóxicos quando comparado com machos adultos.

Controle biológico

Controle químico

Manejo integrado de pragas

Agroquímicos

Crisopídeo

Prunus persica L.

Biological control

Chemical control

Integrated pest management

Chemicals

Green lacewing

Prunus persica L.

Applied ecology of the Tasmanian lacewing Micromus tasmaniae Walker (Neuroptera : Hemerodiidae)

Leathwick, D. M.

January 1989

The Tasmanian lacewing (Micromus tasmaniae Walker) is one of the most common aphid predators occurring in lucerne crops in New Zealand. A comparison of sampling techniques, and the output from a simulation model, suggest that the abundance of this lacewing may have been significantly underestimated in the past. Although the occurrence of aphid predators was erratic M. tasmaniae occurred more often and in far greater numbers (up to 100 m⁻²) than any other predator species. A simulation model for lacewing development in the field indicated that the large adult populations which occurred could be accounted for on the basis of reproductive recruitment. Independent evidence that immigration was not involved in the occurrence of these large populations was gathered using directional flight traps around the field perimeter. The major factors influencing lacewing population dynamics were the availability of aphid prey and, in the autumn, parasitism. Otherwise, survival of all life-histoty stages was high with no evidence of egg or larval cannibalism. Several instances of high lacewing mortality were identified by the model and the lack of any obvious cause for these highlights inadequacies in the understanding of lacewing bionomics. The model, which used a linear relationship (day-degrees) between development and temperature, was incapable of accurately predicting lacewing emergence under field temperatures which fluctuated outside the linear region of the development rate curve. Temperature thresholds and thermal requirements estimated under fluctuating temperatures similar to those in the field produced almost identical model output to those estimated under constant temperatures in the laboratory. Prey species was capable of influencing the rate of lacewing development. M. tasmaniae has the attributes necessary to produce large populations in the short time available between lucerne harvests. The asymptote of the functional response curve is low but the efficiency at converting aphids to eggs is high. Therefore, the lacewing is able to attain maximun reproductive output at low prey densities. A low temperature threshold for development (4-5° C), rapid development and short preoviposition period results in a short generation time (49 days at 15° C). Long adult life, high fecundity and the absence of any form of estivation or diapause, results in complete overlap of generations and multiple generations per year. M. tasmaniae's role as an aphid predator is restricted by its low appetite for prey and by the lucerne management regime currently practiced in New Zealand. Because it consumes relatively few aphids per day the lacewing's ability to destroy large aphid populations is limited. However, this may be offset by its ability to attack aphids early in the aphid population growth phase, and by the large numbers of lacewings which may occur. Under the present lucerne management schemes the large lacewing populations which do occur are forced out of the fields, or die, following harvest. A number of management options for increasing the lacewings impact as an aphid predator are briefly discussed.

Tasmanian lacewing

Micromus tasmaniae Walker

lacewings

lucerne

aphid predators

population dynamics

pest management

Hemerobiidae

Development of a mass rearing technique for the Tasmanian brown lacewing, Micromus tasmaniae Walker

Simeonidis, Andrew

January 1995

Aphids are one of the most important insect pests of greenhouse crops yet to be controlled by biological means. Broad spectrum chemical control is becoming increasingly difficult to use in integrated pest management programmes, therefore, there is a need for a suitable biocontrol agent to be mass reared and released. The Tasmanian brown lacewing, Micromus tasmaniae Walker is an aphid predator that is found commonly throughout Australasia and has suitable characteristics that make it a candidate for mass rearing. A technique for rearing M. tasmaniae was developed. Eggs of M. tasmaniae were reared in batches of 50, 100 and 200 in 20 litre clear plastic containers. The oat aphid, Rhopalosiphum padi L. was fed to the larvae. The results revealed that the highest initial egg density (200 eggs per container) produced the cheapest adults at 22 cents per adult. However, mass rearing adults was considered not practical because of the high production cost, although, mass production of eggs is considered to be economically viable. The cost of producing one egg was 0.015 cents. M tasmaniae was maintained in mass culture for six generations. Simple experiments were carried out to monitor the quality of laboratory-reared insects. The 'wild' insect was used as a quality standard and comparisons with laboratory-reared insect populations were made. The fecundity, development rates and tolerance to pirimicarb, a carbamate insecticide, were determined. Fecundity was found to decline with successive generations in mass culture. The lacewing development experiment indicated that larval stages of each generation suffered the highest mortality rate and that between 35-45% of individuals emerged as adults. The tolerance of adults to pirimicarb did not alter over five generations. Recommendations for improving the mass rearing of M. tasmaniae are discussed.

Tasmanian brown lacewing

Micromus tasmaniae Walker

aphids

Rhopalosiphum padi L.

mass rearing

quality control

biological control

inundative release

greenhouses

Use of floral resources by the lacewing Micromus tasmaniae and its parasitoid Anacharis zealandica, and the consequences for biological control by M. tasmaniae

Robinson, K. A.

January 2009

Arthropod species that have the potential to damage crops are food resources for communities of predators and parasitoids. From an agronomic perspective these species are pests and biocontrol agents respectively, and the relationships between them can be important determinants of crop yield and quality. The impact of biocontrol agents on pest populations may depend on the availability of other food resources in the agroecosystem. A scarcity of such resources may limit biological control and altering agroecosystem management to alleviate this limitation could contribute to pest management. This is a tactic of ‘conservation biological control’ and includes the provision of flowers for species that consume prey as larvae but require floral resources in their adult stage. The use of flowers for pest management requires an understanding of the interactions between the flowers, pests, biocontrol agents and non-target species. Without this, attempts to enhance biological control might be ineffective or detrimental. This thesis develops our understanding in two areas which have received relatively little attention: the role of flowers in biological control by true omnivores, and the implications of flower use by fourth-trophic-level life-history omnivores. The species studied were the lacewing Micromus tasmaniae and its parasitoid Anacharis zealandica. Buckwheat flowers Fagopyrum esculentum provided floral resources and aphids Acyrthosiphon pisum served as prey. Laboratory experiments with M. tasmaniae demonstrated that although prey were required for reproduction, providing flowers increased survival and oviposition when prey abundance was low. Flowers also decreased prey consumption by the adult lacewings. These experiments therefore revealed the potential for flowers to either enhance or disrupt biological control by M. tasmaniae. Adult M. tasmaniae were collected from a crop containing a strip of flowers. Analyses to determine the presence of prey and pollen in their digestive tracts suggested that predation was more frequent than foraging in flowers. It was concluded that the flower strip probably did not affect biological control by lacewings in that field, but flowers could be significant in other situations. The lifetime fecundity of A. zealandica was greatly increased by the presence of flowers in the laboratory. Providing flowers therefore has the potential to increase parasitism of M. tasmaniae and so disrupt biological control. A. zealandica was also studied in a crop containing a flower strip. Rubidium-marking was used to investigate nectar-feeding and dispersal from the flowers. In addition, the parasitoids’ sugar compositions were determined by HPLC and used to infer feeding histories. Although further work is required to develop the use of these techniques in this system, the results suggested that A. zealandica did not exploit the flower strip. The sugar profiles suggested that honeydew had been consumed by many of the parasitoids. A simulation model was developed to explore the dynamics of aphid, lacewing and parasitoid populations with and without flowers. This suggested that if M. tasmaniae and A. zealandica responded to flowers as in the laboratory, flowers would only have a small effect on biological control within a single period of a lucerne cutting cycle. When parasitoids were present, the direct beneficial effect of flowers on the lacewing population was outweighed by increased parasitism, reducing the potential for biological control in future crops. The results presented in this thesis exemplify the complex interactions that may occur as a consequence of providing floral resources in agroecosystems and re-affirm the need for agroecology to inform the development of sustainable pest management techniques.

Micromus tasmaniae

brown lacewing

Hemerobiidae

Anacharis zealandica

parasitoid

Figitidae

Fagopyrum esculentum

buckwheat

Acyrthosiphon pisum

pea aphid

Medicago sativa

lucerne

floral resources

flowers

omnivory

true omnivore

life-history omnivore

fourth trophic level

conservation biological control

pest management