The Effects of Colony Size and Social Density on Individual and Group Level Behavior and Energetics in Ants

Cao, Tuan

05 June 2013

Social insects are used as models for understanding the evolution of sociality because they show seemingly complex behavioral and physiological traits that enforce group cohesion, collective organization, and group level reproduction. Social organization in insect societies requires workers to share information. Information sharing allows workers to efficiently perform and switch among tasks to meet colony needs. For many species that nest in preformed cavities, colony growth results in crowding inside the nest which can affect colony productivity and fitness. How does colony size and social density affect individual and collective behavior? Using a combination of laboratory and field experiments, I have begun to answer this question. In Temnothorax rugatulus ants, high social density resulted in greater colony energy use. In addition, larger colonies used proportionally less energy compared to smaller colonies, but showed reduced brood production. These results indicate that the way colonies use energy changes with social density and group size. In analyzing the effects of colony size and density on worker behavior, I found that high density increased worker connectivity and information sharing. Workers in larger colonies showed less connectivity compared to workers in smaller colonies. Interestingly, workers with more interactions spent less time in brood care. This study shows that workers' access to information and the overall pattern of information flow are affected by social density and colony size, and changes in worker connectivity can influence task behavior. The next study shows that field colonies maintained a relatively constant level of intranidal density irrespective of colony size; this suggests that Temnothorax ants actively regulate social density. When colonies were established in high density nests, they showed greater foraging and scouting activities, and this led to a higher probability for becoming polydomous, i.e., occupying multiple nests. When polydomy occurred, colonies divided evenly between two nests, but distributed fewer, heavier workers and brood to the supplemental nests. Taken together, the first four studies indicate that social density is an important colony phenotype that affects individual and collective behavior and energetics in ants, and the collective management of social density may be a group adaptation in ants and other social insects. Lastly, because crowding affects polydomy behavior, the final two experiments tested whether colony emigration and nest construction and dispersion, two strategies for reducing intranidal crowding, are influenced by food distribution. Temnothorax colonies preferred to emigrate to nests positioned closer to food, and weaver ants (Oecophylla smaragdina) positioned newly constructed nests in food-rich areas. Furthermore, weaver ants used the newly constructed nests to more rapidly retrieve and safeguard valuable food items. Thus, strategic emigrations and adaptive nest dispersion can remedy intranidal crowding and at the same time allow growing colonies to acquire adequate food to meet colony needs.

collective behavior

colony size

communication

metabolic rate

social density

Ecology & Evolutionary Biology

ants

Src family kinase involvement in selected cancer cell phenotypes

Smith-Windsor, Erin Lea

31 March 2011

The non-receptor tyrosine kinase Src has been found to be overexpressed and activated in many human cancers, where it has been implicated in changes in cellular proliferation, adhesion, migration, apoptosis, angiogenesis, and tumour growth. In addition, several other members of the Src family have also been implicated in various cancer phenotypes. Our examination of a wide panel of colon, breast, and lung cancer cell lines revealed that not only Src, but also Yes, Fyn, Lyn, and Lck, were expressed at both the mRNA and protein levels in different combinations, and at varying levels, between cell lines. When examined for kinase activity, it was discovered that only a subset of the expressed Src family members had detectable kinase activity within a given cell line. To investigate the involvement of the Src family members in the proliferation, adhesion, migration, and colony forming ability of four selected cancer cell lines, both Src family kinase inhibitors, which inhibit the kinase activity of multiple Src family members, and RNA interference, which selectively decreases the expression of individual proteins, were used. It was found that the involvement of these proteins in all of the cellular processes investigated was cell line-specific, with the greatest effects observed in HT29 cells, which have relatively high Src protein levels and kinase activity. Furthermore, the consequences of Src family member inhibition were also inhibitor specific, as treatment with PP2 and SKI I generally had greater effects on the cellular processes examined than did treatment with SU6656 or SKI II. It was also found that the inhibition of multiple Src family kinases by at least one of the inhibitors generally resulted in greater effects on the cancer cell phenotypes investigated than were observed when the expression of Src, Fyn, or Yes was decreased using RNA interference. This suggests that multiple Src family members may need to be targeted in order to inhibit the increased proliferation, cell-matrix adhesion, migration, and colony forming ability exhibited by cancer cells. The identification of the cancer cell phenotypes in which particular Src family members are involved is of interest, as these proteins are attractive targets for cancer therapy.

proliferation

adhesion

inhibitors

Src family kinases

RNAi

cancer

migration

colony forming ability

Src

Upper Bound Analysis and Routing in Optical Benes Networks

Zhong, Jiling

12 January 2006

Multistage Interconnection Networks (MIN) are popular in switching and communication applications. It has been used in telecommunication and parallel computing systems for many years. The new challenge facing optical MIN is crosstalk, which is caused by coupling two signals within a switching element. Crosstalk is not too big an issue in the Electrical Domain, but due to the stringent Bit Error Rate (BER) constraint, it is a big major concern in the Optical Domain. In this research dissertation, we will study the blocking probability in the optical network and we will study the deterministic conditions for strictly non-blocking Vertical Stacked Optical Benes Networks (VSOBN) with and without worst-case scenarios. We will establish the upper bound on blocking probability of Vertical Stacked Optical Benes Networks with respect to the number of planes used when the non-blocking requirement is not met. We will then study routing in WDM Benes networks and propose a new routing algorithm so that the number of wavelengths can be reduced. Since routing in WDM optical network is an NP-hard problem, many heuristic algorithms are designed by many researchers to perform this routing. We will also develop a genetic algorithm, simulated annealing algorithm and ant colony technique and apply these AI algorithms to route the connections in WDM Benes network.

Simulated Annealing

Genetic Algorithms

Mins

Benes Network

Ant Colony Algorithms

Computer Sciences

Using ant colonies for solve the multiprocessor task graph scheduling

Bremang, Appah

January 2006

The problem of scheduling a parallel program presented by a weighted directed acyclic graph (DAG) to the set of homogeneous processors for minimizing the completion time of the program has been extensively studied as academic optimization problem which occurs in optimizing the execution time of parallel algorithm with parallel computer.In this paper, we propose an application of the Ant Colony Optimization (ACO) to a multiprocessor scheduling problem (MPSP). In the MPSP, no preemption is allowed and each operation demands a setup time on the machines. The problem seeks to compose a schedule that minimizes the total completion time.We therefore rely on heuristics to find solutions since solution methods are not feasible for most problems as such. This novel heuristic searching approach to the multiprocessor based on the ACO algorithm a collection of agents cooperate to effectively explore the search space.A computational experiment is conducted on a suit of benchmark application. By comparing our algorithm result obtained to that of previous heuristic algorithm, it is evince that the ACO algorithm exhibits competitive performance with small error ratio.

Multiprocessor scheduling problems

ant colony algorithm

ant system

pheromone trail

makespan.

Src family kinase involvement in selected cancer cell phenotypes

Smith-Windsor, Erin Lea

31 March 2011

The non-receptor tyrosine kinase Src has been found to be overexpressed and activated in many human cancers, where it has been implicated in changes in cellular proliferation, adhesion, migration, apoptosis, angiogenesis, and tumour growth. In addition, several other members of the Src family have also been implicated in various cancer phenotypes. Our examination of a wide panel of colon, breast, and lung cancer cell lines revealed that not only Src, but also Yes, Fyn, Lyn, and Lck, were expressed at both the mRNA and protein levels in different combinations, and at varying levels, between cell lines. When examined for kinase activity, it was discovered that only a subset of the expressed Src family members had detectable kinase activity within a given cell line. To investigate the involvement of the Src family members in the proliferation, adhesion, migration, and colony forming ability of four selected cancer cell lines, both Src family kinase inhibitors, which inhibit the kinase activity of multiple Src family members, and RNA interference, which selectively decreases the expression of individual proteins, were used. It was found that the involvement of these proteins in all of the cellular processes investigated was cell line-specific, with the greatest effects observed in HT29 cells, which have relatively high Src protein levels and kinase activity. Furthermore, the consequences of Src family member inhibition were also inhibitor specific, as treatment with PP2 and SKI I generally had greater effects on the cellular processes examined than did treatment with SU6656 or SKI II. It was also found that the inhibition of multiple Src family kinases by at least one of the inhibitors generally resulted in greater effects on the cancer cell phenotypes investigated than were observed when the expression of Src, Fyn, or Yes was decreased using RNA interference. This suggests that multiple Src family members may need to be targeted in order to inhibit the increased proliferation, cell-matrix adhesion, migration, and colony forming ability exhibited by cancer cells. The identification of the cancer cell phenotypes in which particular Src family members are involved is of interest, as these proteins are attractive targets for cancer therapy.

proliferation

adhesion

inhibitors

Src family kinases

RNAi

cancer

migration

colony forming ability

Src

In vivo infection biology of contagious bovine pleuropneumonia

Gull, Tamara Brownsey

15 May 2009

Contagious Bovine Pleuropneumonia (CBPP), caused by Mycoplasma mycoides mycoides small colony (MmmSC), is a devastating respiratory disease of cattle in Africa, Asia and the Middle East. Little investigation has been done on molecular disease pathogenesis and host response beyond soluble cytokine detection. This study developed and characterized models for three strains of MmmSC of varying severity. Strains used were Gladysdale, Ondangwa and Shawawa. Samples of bronchoalveolar lavage fluid, bronchial biopsy, nasal epithelial cells and blood were obtained prior to and at weekly time points post-infection. Microarray analysis of RNA extracted from samples revealed host cellular pathways and genes important in the pathogenesis of CBPP, including multiple immune system and inflammatory response pathways. A number of pathways whose influence on disease pathogenesis was not immediately clear were also activated, including pathways involved in amino acid synthesis, fat metabolism, and endocrine hormone responses. Microarray results were confirmed with real-time polymerase chain reaction (RT-PCR) of selected genes. Comparative RT-PCR analysis of selected genes between the three strains of MmmSC revealed genes possibly responsible for differential strain virulence, including interleukins 1B, 6, 8, and 18 and the gene nuclear factor of kappa light polypeptide gene enhancer in B cells inhibitor, alpha (NFKBIA). A similar analysis of selected genes between survivors and nonsurvivors of the virulent Gladysdale strain of MmmSC suggested genes involved in survival, including interleukin 8, calmodulin 2 (CALM2), and NFKBIA. Avenues of additional study were identified.

Contagious Bovine Pleuropneumonia

cattle

infectious disease

foreign animal disease

Rule-based graph theory to enable exploration of the space system architecture design space

Arney, Dale Curtis

29 June 2012

NASA's current plans for human spaceflight include an evolutionary series of missions based on a steady increase in capability to explore cis-lunar space, the Moon, near-Earth asteroids, and eventually Mars. Although the system architecture definition has the greatest impact on the eventual performance and cost of an exploration program, selecting an optimal architecture is a difficult task due to the lack of methods to adequately explore the architecture design space and the resource-intensive nature of architecture analysis. This research presents a modeling framework to mathematically represent and analyze the space system architecture design space using graph theory. The framework enables rapid exploration of the design space without the need to limit trade options or the need for user interaction during the exploration process. The architecture design space for three missions in a notional evolutionary exploration program, which includes staging locations, vehicle implementation, and system functionality, for each mission destination is explored. Using relative net present value of various system architecture options, the design space exploration reveals that the launch vehicle selection is the primary driver in reducing cost, and other options, such as propellant type, staging location, and aggregation strategy, provide less impact.

Ant colony optimization

Space systems

Graph theory

System architecture

Mathematical analysis

Systems engineering

Social Organisation And Cooperation In Genetically Mixed Colonies Of The Primitively Eusocial Wasp, Ropalidia Marginata

Arathi, H S

January 1996

Altruism in its extreme form is seen in social insects where most individuals give up their own reproduction and work to rear the offspring of their queen. The origin and evolution of such sterile worker castes remains a major unsolved problem in evolutionary biology. Primitively eusocial polistine wasps are an attractive model system for investigating this phenomenon. Ropalidia marginata (Lep.) (Hymenoptera: Vespidae) is one such tropical primitively eusocial wasp, in which new nests are initiated either by a single foundress or by a group of female wasps. Worker behaviour in Ropalidia marginata cannot be satisfactorily explained by the haplodiploidy hypothesis due to the existence of polyandry and serial polygyny which reduce intra-colony genetic relatedness to levels lower than the value expected between a solitary foundress and her offspring. Besides, wasps appear to move frequently between newly initiated nests, perhaps further reducing intracolony genetic relatedness. To study social organization and examine the possibility of kin recognition and task specialization under conditions of low intra-colony relatedness, genetically mixed colonies were created by introducing alien one-day old wasps onto recipient nests. As a first step I have tried to determine the factors that influence the acceptance of foreign wasps onto established colonies. I have introduced wasps between 1 to 20 days of age from donor colonies located at least 10 km away onto 12 different recipient colonies, observed these wasps for a period of 10 hours and later dissected them to examine their ovarian condition. Observations were carried out in the blind i.e. the observer was unaware of the identity of the wasps. Wasps upto 6 days of age were accepted by the alien nests. Older wasps may have been rejected because their relatively better ovarian condition may have been perceived as a reproductive threat to the recipient nest. Alternatively, younger wasps may have been accepted because they may be more easily moulded to the desired roles or due to some other correlate of age per se independent of ovarian condition. Although ovarian condition appeared to influence the probability of acceptance, it was not statistically significant in the presence of age in multiple regression models, making a favourable case for the 'ease of moulding hypothesis' or 'age per se hypothesis' over the 'reproductive threat hypothesis'. In any case these findings gave me a method to create genetically mixed colonies. On 12 different nests Ropalidia marginata, I similarly introduced one-day old wasps and thus created genetically mixed colonies. Such an introduction simulates the eclosion of distantly related individuals which is quite common on nests of R. marginata due to the presence of serial polygyny. About 7 such wasps were introduced per colony and the introductions were so arranged as to matched with natural eclosions on the recipient nest. After 7 days following the last introduction, colonies were observed for 20 hours each. Alien wasps became well integrated and performed most of the behaviours and tasks shown by the natal wasps. There was no evidence of kin recognition or task specialization between natal and introduced wasps. The introduced wasps also sometimes became replacement queens. In an attempt to test the costs in terms of brood rearing efficiency, of living in such genetically variable groups, I created kin and non-kin pairs of wasps in plastic containers. They were provided with ad libitum food, water and building material. The nests initiated were monitored till an adult offspring eclosed. There were no detectable differences in either the productivities or the developmental periods of immature stages in the kin and nonkin pairs suggesting that there is no apparent cost of living with unrelated or distantly related individuals. To compare the extent of cooperation between the two wasps in kin and non-kin pairs, I conducted behavioural observations on 12 pairs each of kin and nonkin wasps. I found no difference in the rates at which the non-egg layers brought food and pulp, fed larvae and built the nest in the kin and nonkin pairs suggesting that cooperative nest building and brood rearing was common to the kin as well as non-kin pairs. The results reported here strengthen the idea that factors other than genetic relatedness must play a prominent role in the maintenance of worker behaviour in Ropalidia marginata.

Ecology

Ropalidia marginata

Wasps - Colony

Hymenoptera

Hamilton's Rule

Haplodiploidy Hypothesis

Social insects - Altruism

Eusocial Wasp

Wasp

A seventeenth-century planter's house at Ferryland, Newfoundland (CgAf-2, Area D) /

Crompton, Amanda J.,

January 2001

Thesis (M.A.)--Memorial University of Newfoundland, 2001. / Bibliography: leaves 297-335.

A seventeenth-century house at Ferryland, Newfoundland (CgAf-2, area B) /

Nixon, Douglas, A.,

January 1999

Thesis (M.A.), Memorial University of Newfoundland, 2000. / Bibliography: leaves 202-216.