The effects of plant gross morphology on the foraging efficiencies of generalist predators

Reynolds, Paula

January 2011

Plant shape affects the ability of insect predators to locate prey by altering search paths or by providing partial refugia for prey. Changes in predator foraging efficiency can have significant consequences for population dynamic of both predators and prey. Yet, the relationship between plants and insect predators is not well understood despite its relevance to agriculture and biological control. The effect of plant gross morphology on predator foraging success was tested using multicoloured Asian ladybeetles, Harmonia axyridis Pallas (Coleoptera: Coccinellidae), and green lacewing larvae, Chrysoperla carnea Stephens (Neuroptera: Chrysopidae), preying on pea aphids, Acyrthosiphon pisum Harris (Hemiptera: Aphididae). These predators differed in body size and therefore might be expected to have different responses to a given plant morphology. Experiments were conducted using four different pea plant morphologies (Pisum sativum L.) that differed in fractal dimension, but which were controlled for surface area. The consumption rate of each predator on each pea morph was determined by measuring the number of aphids consumed in a 48 hour foraging period at 3 prey densities. I also tracked predator search paths using 2D time-lapse photography to determine if the two predators search plants differently. I found that both predators were more successful at capturing prey on plants with a higher leaf edge to leaf area ratio (lower fractal dimension). Plants with more edges were easier for predators to grip, thus increasing their mobility and manoeuvrability. Also, plants with more edges and fewer leaf surfaces had fewer locations where aphids could hide. As a result, predators are more effective at locating and capturing prey on these morphologies.

foraging efficiency

plant morphology

tritrophic interactions

Biology

The effects of plant gross morphology on the foraging efficiencies of generalist predators

Reynolds, Paula

January 2011

Plant shape affects the ability of insect predators to locate prey by altering search paths or by providing partial refugia for prey. Changes in predator foraging efficiency can have significant consequences for population dynamic of both predators and prey. Yet, the relationship between plants and insect predators is not well understood despite its relevance to agriculture and biological control. The effect of plant gross morphology on predator foraging success was tested using multicoloured Asian ladybeetles, Harmonia axyridis Pallas (Coleoptera: Coccinellidae), and green lacewing larvae, Chrysoperla carnea Stephens (Neuroptera: Chrysopidae), preying on pea aphids, Acyrthosiphon pisum Harris (Hemiptera: Aphididae). These predators differed in body size and therefore might be expected to have different responses to a given plant morphology. Experiments were conducted using four different pea plant morphologies (Pisum sativum L.) that differed in fractal dimension, but which were controlled for surface area. The consumption rate of each predator on each pea morph was determined by measuring the number of aphids consumed in a 48 hour foraging period at 3 prey densities. I also tracked predator search paths using 2D time-lapse photography to determine if the two predators search plants differently. I found that both predators were more successful at capturing prey on plants with a higher leaf edge to leaf area ratio (lower fractal dimension). Plants with more edges were easier for predators to grip, thus increasing their mobility and manoeuvrability. Also, plants with more edges and fewer leaf surfaces had fewer locations where aphids could hide. As a result, predators are more effective at locating and capturing prey on these morphologies.

foraging efficiency

plant morphology

tritrophic interactions

Biology

Fingerprints of planktivory : paleolimnological evidence of past fish community structure and dynamics

Åhlén, Emma

January 2012

Planktivorous fish affect the species composition, size and morphology of their zooplankton prey by size selective predation. Remains of cladocerans are deposited in the lake sediments and this microfossil community hence reflects the historical changes in the planktivore fish community. Most earlier work on quantitatively inferring past planktivory deals with ephippia (resting eggs) of Daphnia, however these remains are very scarce in northern Swedish lakes. In these lakes, often dominated by fish that are not obligate planktivores, such as perch (Perca fluviatilis), the individual size to a large degree determines the type of resource consumed. Therefore, in these lakes, the size distribution as well as the density of the fish community determines the overall planktivoryThis thesis deals with evaluating the use of Bosmina remains in the sediment as indicators of past planktivory. I developed a transfer function based on Bosmina remains to be used in oligotrophic lakes with omnivorous species to reconstruct past planktivory. I test the transfer function in a lake where the history is to a large extent known. Furthermore, in this thesis a novel quantitative measure of planktivore pressure, the PCC (Planktivore Community Capacity) was developed. It was also possible to compare the morphology measurements of carapace length and mucro length of contemporary Bosmina sampled in the lake, with the same measurements on microfossils of Bosmina sedimented during the corresponding time period. By using the resurrection approach this thesis also evaluates the use of Ceriodaphnia clones as indicators of micro-evolutionary responses to past planktivory.From the studies in this thesis I can draw some major conclusions; the morphological measurements carapace length and mucro length of Bosmina can be used to infer past planktivory in northern Swedish lakes. PCC has a higher explanatory power than CPUE in these lakes dominated by omnivorous fish. The morphology of the contemporary Bosmina corresponds well with the remains found in the sediment dating from the same time period. Both the contemporary and microfossil Bosmina changes in body size characteristics was in turn strongly related to PPC. Finally, the hatching of Ceriodaphnia ephippia is promising for studying past planktivory, both because of the high viability of the ephippia and the relationship between eye area and inferred PCC.

planktivory

foraging efficiency

cladoceran remains

Bosmina

planktivore community capacity

PCC

Ceriodaphnia

reserrection

Effects of plant architecture and prey distribution on the foraging efficiency and behavior of the predatory mite Phytoseiulus persimilis (Acari:phytoseiidae)

Gontijo, Lessando Moreira

January 1900

Master of Science / Department of Entomology / David C. Margolies / James R. Nechols / The study of how extrinsic factors affect the foraging efficiency and behavior of predaceous arthropods like Phytoseiulus persimilis is important to understand their various processes of acquiring prey, mates, refuges, oviposition sites, and overcoming obstacles posed by the environment. Many intrinsic and extrinsic factors affect predator foraging efficiency and behavior. One of the most influential extrinsic factors may be the host plant on which herbivorous prey are found. Recent studies suggest that plant architecture plays an important role in tritrophic interactions. In this work, I studied the effects of cucumber plant architecture and prey distribution on the foraging efficiency (prey-finding time and prey-consumption rate) and behavior (time allocated between moving, resting and feeding) of P. persimilis. Plant architecture represented differences in leaf number and size; however, all plants had the same total surface area. Plants with 6 small leaves (ca. 82.98 square cm each) were considered as complex architecture, whereas plants with only 2 large leaves (ca. 240.60 square cm each) were considered as simple. The prey distributions were: prey patch on a single basal leaf (closest leaf to the soil) and prey patch on all leaves. The foraging efficiency was assessed by measuring prey-finding time and prey-consumption rate, whereas the behavior was assessed by conducting observational studies on specific foraging activities. When placed either on the top or at the base of the plant P. persimilis encountered prey more rapidly (interval 0-30 minute) on complex and simple plants with prey patches distributed on all leaves. Differences in prey density (number of prey per leaf) had no effect on the prey-finding time of P. persimilis. The predator consumed more eggs on complex plants with prey patches distributed on all leaves. Phytoseiulus perismilis tended to find prey patches more quickly as well as consume more eggs on leaves close to its release point. Furthermore, the predator was observed to lay more eggs on leaves where it had consumed higher number of prey eggs. The dimensions of individual parts of the plant e.g., stem, petiole and leaf, affected the time allocated by P. persimilis between searching, resting and feeding. The predatory mite spent more time foraging on the stems and petioles of the simple plants whereas on complex plants it spent more time foraging on the leaves.

Plant architecture

Prey distribution

Phytoseiulus persimilis

Foraging efficiency

Foraging behavior

Agriculture, Agronomy (0285)

Biology, Ecology (0329)

Biology, Entomology (0353)

Alteration of behavior by desert bighorn sheep from human recreation and Desert Bighorn Sheep Survival in Canyonlands National Park: 2002 - 2010

Sproat, Kanalu K.

04 December 2012

Human encroachment into wilderness areas can influence the persistence of wildlife populations by decreasing and degrading habitat, displacement, and decreasing survival. For bighorn sheep (Ovis canadensis), some human activities are detrimental, causing both physiological stress and habitat abandonment. Between 1979 and 2000, human recreation has increased over 300% in areas occupied by desert bighorn sheep (O. c. nelsonii) in southeastern Utah. We investigated if an increase in human activity in areas used by bighorns affected their behavior. We observed 34 bighorn sheep using focal-animal sampling for >14 hrs to compare time spent grazing and scanning between areas of high and low human use. We identified group size, presence or absence of a lamb, distance to escape terrain, and human use (high versus low) as potential explanatory variables that influenced grazing and scanning times, and created an a priori list of models based on these variables. We used Akaike's Information Criterion adjusted for small sample sizes (AICc) to rank models, and used model selection to find a best approximating model (lowest AICc value) for both behaviors. Desert bighorn sheep spent less time grazing and more time scanning in high human use areas (22% grazing, 29% scanning) than in low human use areas (54% grazing, 8% scanning). Caution should be taken when considering which areas or trails should be opened during these important seasons to minimize and reduce additional stresses to bighorns caused by human activity. Bighorn sheep populations experienced significant declines after European settlement in North America. Today, the primary practice of bighorn sheep conservation is through population restoration and augmentation from remnant source populations. We conducted a 9-year telemetry study for a source population of desert bighorn sheep in Canyonlands National Park, Utah. We captured and collared 58 bighorn sheep from 2002-2009. To estimate annual and seasonal survival, we used known-fate analysis in Program MARK 4.1. We used model selection to test hypotheses for bighorn survival, including sex, age, human use, year, and month, as possible explanatory variables. There were 20 mortalities during the study. Annual survival ranged from 83% - 88% with no significant variation among any of the years. Model selection results showed that the top six models included a temporal variable (e.g. season or month), and carried 92% of the AICc weight. Population persistence for bighorn sheep can be compromised by high levels of predation, habitat fragmentation, and disease transmitted from domestic sheep. We suggest that land managers continue to maintain the separation of domestic sheep from bighorns in CNP. We also recommend that survival studies continue to ensure that future translocation projects do not occur at the expense of the source population.

desert bighorn sheep

foraging efficiency

human activity

Ovis canadensis nelsoni

restoration

source population

survival

translocation

Animal Sciences

Comportamento de caroneiras e suas implicações no forrageamento de Acromyrmex subterraneus subterraneus (Forel, 1893)

Hastenreiter, Isabel Neto

28 February 2012

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-05-23T11:19:19Z No. of bitstreams: 1 isabelnetohastenreiter.pdf: 1110764 bytes, checksum: 50f0c35e424184f9257ae96487240a09 (MD5) / Rejected by Adriana Oliveira (adriana.oliveira@ufjf.edu.br), reason: Inicial da primeira letra de palavras chaves em maiúsculo on 2016-07-02T11:31:33Z (GMT) / Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-07-04T10:17:23Z No. of bitstreams: 1 isabelnetohastenreiter.pdf: 1110764 bytes, checksum: 50f0c35e424184f9257ae96487240a09 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-07-13T16:11:22Z (GMT) No. of bitstreams: 1 isabelnetohastenreiter.pdf: 1110764 bytes, checksum: 50f0c35e424184f9257ae96487240a09 (MD5) / Made available in DSpace on 2016-07-13T16:11:22Z (GMT). No. of bitstreams: 1 isabelnetohastenreiter.pdf: 1110764 bytes, checksum: 50f0c35e424184f9257ae96487240a09 (MD5) Previous issue date: 2012-02-28 / Nas trilhas de forrageamento de formigas cortadeiras são encontradas operárias de diferentes classes de tamanho que desempenham várias funções relacionadas ao corte e transporte de folhas para o ninho, bem como de manutenção e defesa da trilha. Operárias da casta mínina podem ser comumente observadas “pegando carona” nos fragmentos transportados, ato bastante conhecido para Atta (saúvas), mas ainda pouco estudado para Acromyrmex (quemquéns). Na literatura dados relacionam a ocorrência deste comportamento com a defesa contra parasitóides e com a limpeza e preparo da folha para incorporação no jardim de fungo. Nesta situação, a ocorrência das caroneiras promoveria um incremento na eficiência do forrageamento. Por outro lado, o ato de pegar carona também se relaciona com a ingestão de seiva exsudada do fragmento, com menor custo energético para locomoção entre ninho e recurso ou ainda com o simples fato que as operárias não conseguem descer dos fragmentos. Neste caso, o ato de “pegar carona” pode representar um custo extra para a forrageira que a transporta reduzindo sua eficiência individual no forrageamento. Apesar deste comportamento não ser observado em todos os fragmentos transportados, seu papel durante o forrageamento ainda não está bem esclarecido, bem como dos fatores estimulam sua ocorrência. Sendo assim, objetivou-se elaborar um etograma das caroneiras a fim de relacionar suas atitudes comportamentais com a provável finalidade de sua ocorrência; avaliar o efeito da presença de caroneiras sobre a velocidade de deslocamento e a eficiência do forrageamento individual das forrageiras; investigar a frequência de caroneiras em fragmentos vegetais de diferentes tamanhos e tipos; e verificar se há relação entre o tamanho do fragmento transportado com o tempo de permanência das caroneiras sobre as folhas. O etograma obtido indica que as caroneiras são vigilantes e sugere-se que elas se mantêm no fragmento de forma a diminuir o impacto de sua presença sobre a forrageira que a transporta. Tal suposição está embasada visto que a ocorrência de caroneiras influencia negativamente na velocidade de deslocamento e na eficiência individual da forrageira que a transporta. Caroneiras aumentam a vigilância durante o forrageamento e embora representem um custo individual à forrageira transportadora, este custo é provavelmente compensado pelo incremento na defesa e reduzido pela atitude comportamental mantida sob a folha. A frequência de caroneiras nos diferentes substratos sugere que elas são hábeis em discriminar o tipo de substrato no qual irão subir. A maior freqüência de caroneiras em folhas de Acalypha wilkesiana que em pétalas de Rosa sp. pode estar relacionado com a presença de tricomas nas folhas, que podem servir como ponto de apoio, e com a presença de mais feixes vasculares nas folhas, que deve conferir maior dureza à folha. O maior número de caroneiras em fragmentos grandes de A. wilkesiana deve estar relacionado com maior área de patrulhamento da caroneira e maior área exsudando seiva. A ocorrência de caroneiras também pode ser disparada pela presença de forídeos nas trilhas de forrageamento. Entretanto, a presença de parasitóides diminui o tamanho das operárias forrageiras, diminuindo em consequência, o tamanho do fragmento transportado. Porém, deve haver um limite mínimo de tamanho de fragmento para que a condição de caroneira seja exercida. Dessa forma, as operárias menores presentes nas trilhas devem forragear próximo ao ótimo, transportando fragmentos grandes. Assim, as forrageiras teriam alto gasto energético, mas ajustariam o tamanho e o tipo de substrato vegetal de modo que a ocorrência de caroneiras seja maximizada, permitindo que as mínimas subam nas folhas e exerçam a defesa das operárias contra forídeos parasitóides. / Foraging trails of leaf-cutting ants are composed by a great number of workers of different sizes also performing many different acts. Their behavior is related with the cut and transport of leaves to the nest, as well as the trail maintenance and defense. Minimal workers are commonly observed hitchhiking the transported fragments, well-known behavior for Atta, but still not investigated for Acromyrmex. Some reported data relate the occurrence of this behavior with the defense against parasitoids and the cleaning and preparation of the leaf before being incorporated in the fungus garden. In this context, hitchhikers promote an increase at the foraging efficiency. On the other hand, the hitchhiker behavior is also related with the ingestion of exuded sap from the leaves fragments, with lower energy expend for moving between the nest and the resource or just to the fact that the workers could not get down of the fragments. In this situation, hitchhiking could represent an extra cost for the forager workers reducing its individual foraging efficiency. Although this behavior is not observed in all types of fragments transported, their role during foraging is still not well explained as well as which factors stimulate their occurrence. Our objective was to develop an ethogram in order to relate the posture of the hitchhikers with their function; to evaluate the effect of hitchhikers presence on the running speed and colony's foraging efficiency; to investigate the frequency of hitchhikers over plant fragments of different sizes and types, and to check the relationship between the size of the transported fragment with the permanence time of hitchhikers over the leaves. Results indicate that hitchhikers are vigilant and keep over the fragment in order to reduce the impact of their presence. This supposition is based on our results that show a negative influence of the hitchhikers on the running speed and individual foraging efficiency. Hitchhikers increase vigilance during foraging, and although they represent a cost to the forager, this cost is probably offset by a defense increase. Also, the frequency of hitchhikers on different substrates suggests that they are able to choose the type of substrate on which they will climb. Their higher frequency in A. wilkesiana leaves than in petals of Rosa sp. could be related with the largest number of trichomes, that can serve as support, and largest number of vascular bundles, that increased hardness of the substrate. The higher frequency of hitchhikers over bigger fragments of A. wilkesiana must be related to a bigger patrolling area and more exuded sap. Hitchhikers behavior could also be triggered by phorids presence at foraging trails. However, parasitoids presence turn the fragments size smaller due to the fact that smaller foragers cut smaller fragments. But the size could not be too much reduced allowing the occurrence of hitchhikers. Thus, minimal workers present at the foraging trails must forage close to their optimal foraging, carrying large fragments. So, foragers have higher energy expenditure, but adjust the size and type of plant substrate so that the occurrence of hitchhikers is maximized, allowing that minimal workers climb on the leaves and engaged in the defense against phorid parasitoids.

Formigas cortadeiras

Caroneiras

Eficiência de forrageamento

Seleção de substrato

Forídeos

Leaf-cutting ants

Hitichhikers

Foraging efficiency

Selection of substrate

Phorid