Your search keyword '"I Scharf"' showing total 141 results

101. The effect of maze complexity on maze-solving time in a desert ant.

Author

Bega D, Samocha Y, Yitzhak N, Saar M, Subach A, and Scharf I

Subjects

Animals, Feeding Behavior physiology, Food, Reward, Time Factors, Ants physiology, Exploratory Behavior physiology, Maze Learning physiology

Abstract

One neglected aspect of research on foraging behavior is that of the effect of obstacles that increase habitat complexity on foraging efficiency. Here, we explored how long it takes individually foraging desert ant workers (Cataglyphis niger) to reach a food reward in a maze, and examined whether maze complexity affects maze-solving time (the time elapsed till the first worker reached the food reward). The test mazes differed in their complexity level, or the relative number of correct paths leading to the food reward, vs. wrong paths leading to dead-ends. Maze-solving time steeply increased with maze complexity, but was unaffected by colony size, despite the positive correlation between colony size and the number of workers that searched for food. The number of workers observed feeding on the food reward 10 min after its discovery decreased with complexity level but not colony size. We compared our experimental results to three simulation models, applying different search methods, ranked them according to their fit to the data and found the self-avoiding random search to fit the best. We suggest possible reasons for the model deviations from the observational findings. Our data emphasize the necessity to refer to habitat complexity when studying foraging behavior., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

102. Wormlions prefer both fine and deep sand but only deep sand leads to better performance.

Author

Bar-Ziv MA, Bega D, Subach A, and Scharf I

Abstract

Wormlions are small fly larvae that dig pits in loose soil to trap their prey. Similar to other trap-building predators, like spiders and antlions, they depend on the habitat structure for successful trap construction and prey catch. We examined whether sites at which wormlions are present differ in sand depth and particle size from nearby sites, at which wormlions are absent. Next, in the laboratory we manipulated both sand depth and type (fine vs. coarse) to determine their joint effect on microhabitat preference, the size of the constructed pit, wormlion movement, and their latency to respond to prey. We expected better performance by wormlions in fine and deep sand, and the sand in wormlions' natural sites to be finer and deeper. However, in only partial agreement with our expectations, wormlion sites featured finer sand but not deeper sand. In the laboratory, wormlions preferred both fine and deep sand, and moved more in shallow and coarse sand, which we interpret as an attempt to relocate away from unfavorable conditions. However, only deep sand led to larger pits being constructed and to a faster response to prey. The preference for fine sand could, therefore, be related to other benefits that sand provides. Finally, body mass was a dominant factor, interacting with the preference for both deep and fine sand: deep over shallow sand was more favored by large wormlions and fine over coarse sand by smaller ones. Our results suggest that several factors should be incorporated when studying microhabitat selection.

Published

2019

103. Context-dependent effects of cold stress on behavioral, physiological, and life-history traits of the red flour beetle.

Author

Scharf I, Wertheimer KO, Xin JL, Gilad T, Goldenberg I, and Subach A

Subjects

Acclimatization, Animals, Body Weight, Feeding Behavior, Female, Locomotion, Male, Reproduction, Sexual Behavior, Animal, Starvation, Tribolium chemistry, Cold-Shock Response physiology, Tribolium physiology

Abstract

Animals are exposed in nature to a variety of stressors. While stress is generally harmful, mild stress can also be beneficial and contribute to reproduction and survival. We studied the effect of five cold shock events versus a single cold shock and a control group, representing three levels of stress (harsh, mild, and no stress), on behavioral, physiological, and life-history traits of the red flour beetle (Tribolium castaneum, Herbst 1797). Beetles exposed to harsh cold stress were less active than a control group: they moved less and failed more frequently to detect a food patch. Their probability to mate was also lower. Beetle pairs exposed to harsh cold stress frequently failed to reproduce at all, and if reproducing, females laid fewer eggs, which were, as larvae in mid-development, smaller than those in the control group. However, harsh cold stress led to improved female starvation tolerance, probably due to enhanced lipid accumulation. Harsh cold shock also improved tolerance to an additional cold shock compared to the control. Finally, a single cold shock event negatively affected fewer measured response variables than the harsh cold stress, but also enhanced neither starvation tolerance nor tolerance to an additional cold shock. The consequences of a harsher cold stress are thus not solely detrimental but might even enhance survival under stressful conditions. Under benign conditions, nevertheless, harsh stress impedes beetle performance. The harsh stress probably shifted the balance point of the survival-reproduction trade-off, a shift that did not take place following exposure to mild stress., (© 2017 Institute of Zoology, Chinese Academy of Sciences.)

Published

2019

104. Consistent differences in foraging behavior in 2 sympatric harvester ant species may facilitate coexistence.

Author

Saar M, Subach A, Reato I, Liber T, Pruitt JN, and Scharf I

Abstract

The co-occurrence of 2 similar species depends on their ability to occupy different ecological niches. Here, we compared the consistency of different aspects of foraging behavior in 2 co-occurring harvester ant species ( Messor ebeninus and Messor arenarius ), under field conditions. The 2 species are active concomitantly and display a similar diet, but M. arenarius features smaller colonies, larger workers on average, and a broader range of foraging strategies than M. ebeninus . We characterized the flora in the 2 species' natural habitat, and detected a nesting preference by M. arenarius for more open, vegetation-free microhabitats than those preferred by M. ebeninus . Next, we tested the food preference of foraging colonies by presenting 3 non-native seed types. Messor arenarius was more selective in its food choice. Colonies were then offered 1 type of seeds over 3 days in different spatial arrangements from the nest entrance (e.g., a seed plate close to the nest entrance, a seed plate blocked by an obstacle, or 3 plates placed at increasing distances from the nest entrance). While both species were consistent in their foraging behavior, expressed as seed collection, under different treatments over time, M. ebeninus was more consistent than M. arenarius . These differences between the species may be explained by their different colony size, worker size, and range of foraging strategies, among other factors. We suggest that the differences in foraging, such as in food preference and behavioral consistency while foraging, could contribute to the co-occurrence of these 2 species in a similar habitat.

Published

2018

105. Comparison of wormlions and their immediate habitat under man-made and natural shelters: suggesting factors making wormlions successful in cities.

Author

Bar-Ziv MA, Subach A, Hirsch-Ionescu A, Belmaker J, Zweifler A, and Scharf I

Subjects

Adaptation, Physiological, Animals, Body Size, Insecta anatomy & histology, Insecta growth & development, Urban Population, Ecosystem, Insecta physiology

Abstract

Wormlions are fly larvae that construct pit-traps in loose soil and ambush prey that fall into their pits. They occur in high numbers in cities, below any man-made shelter providing protection from direct sunlight, such as a concrete roof with a thin layer of sand at the ground. Their natural habitat is either caves or any natural structure that provides full shade. We characterized a large urban habitat and compared it to two natural habitats, where wormlions occur in caves. Wormlions were abundant in all studied habitats. Our goals were to understand whether wormlions in the urban habitat perform better than in the natural habitats, and to suggest differences between the habitats that may contribute to their success under man-made shelters. Wormlions in the city reached larger size before pupation, and wormlion clusters there were larger. The studied urban habitat contained more concrete and perennial plants, while the natural habitats comprised of more annuals. We suggest that this concrete, covered with a thin layer of sand, leads to large areas suitable for wormlions. Furthermore, ants were more common in the urban habitat than the natural habitats, referring to their relative proportion of all arthropods collected. We suggest that these small ants provide suitable prey for wormlions, especially in the early stages of their development, when wormlions are limited by prey size. This could explain why they reach larger size prior to pupation. Pits were probably larger because they were constructed by larger individuals. In conclusion, we suggest that wormlions present an interesting case of an insect pre-adapted to urban life., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

106. Within-colony genetic diversity differentially affects foraging, nest maintenance, and aggression in two species of harvester ants.

Author

Saar M, Eyer PA, Kilon-Kallner T, Hefetz A, and Scharf I

Subjects

Animals, Ants anatomy & histology, Body Size genetics, Phylogeny, Aggression, Ants genetics, Genetic Variation, Nesting Behavior

Abstract

There is accumulating evidence that genetic diversity improves the behavioral performance and consequently the fitness in groups of social animals. We examined the behavioral performance of colonies of two co-occurring, congeneric harvester ant species (Messor arenarius and a non-described Messor sp.) in fitness-related behaviors, pertaining to foraging performance, nest maintenance, and aggression. We linked these behaviors to the colonial genetic diversity, by genotyping workers, using six and five microsatellite markers for M. arenarius and M. sp., respectively. Correlations of genetic diversity with colony performance and aggression level contrasted between the two species. In M. arenarius, genetic diversity was correlated with foraging performance and nest maintenance but not with the overall aggression level, while in M. sp., genetic diversity was correlated with the overall aggression level, but not with foraging performance or nest maintenance. The two species exhibited similar specific aggression levels, with higher aggression shown towards heterospecifics and lower towards non-nestmate conspecifics and nestmates. However, M. sp. workers displayed a tendency to interact for longer with heterospecifics than did M. arenarius. We speculate that the different foraging strategies, group vs. individual foraging, and possibly also the different mating systems, contribute to the differences found in behavior between the two species.

Published

2018

107. Social tipping points in animal societies in response to heat stress.

Author

Doering GN, Scharf I, Moeller HV, and Pruitt JN

Subjects

Animals, Female, Models, Theoretical, Heat-Shock Response physiology, Social Behavior, Spiders physiology

Abstract

Living systems sometimes experience abrupt tipping points in response to stress. Here we investigate the factors contributing to the appearance of such abrupt state transitions in animal societies. We first construct a mathematical account of how the personality compositions of societies could alter their propensity to shift from calm to violent states in response to thermal stress. To evaluate our model, we subjected experimental societies of the spider Anelosimus studiosus to heat stress. We demonstrate that both colony size and personality composition influence the timing of and recoverability from sudden transitions in social state. Groups composed of aggressive personalities transitioned into violent within-group dynamics sooner during heating, and also resisted recovery to baseline non-aggressive behaviour during cooling. We further observed hysteresis in groups composed of aggressive individuals, where group behaviour depended strongly on whether the colony had previously been in a calm or agitated state. These results demonstrate that a society's susceptibility to sudden state shifts and their recoverability from them can be driven by the personalities of their constituents.

Published

2018

108. Thermal acclimation is not induced by habitat-of-origin, maintenance temperature, or acute exposure to low or high temperatures in a pit-building wormlion (Vermileo sp.).

Author

Bar-Ziv MA and Scharf I

Subjects

Animals, Cold-Shock Response, Ecosystem, Heat-Shock Response, Acclimatization, Diptera physiology, Temperature

Abstract

Wormlions are sit-and-wait insect predators that construct pit-traps to capture arthropod prey. They require loose soil and shelter from direct sun, both common in Mediterranean cities, and explaining their high abundance in urban habitats. We studied different aspects of thermal acclimation in wormlions. We compared chill-coma recovery time (CCRT) and heat-shock recovery time (HSRT) of wormlions from urban, semi-urban and natural habitats, expecting those originating from the urban habitat to be more heat tolerant and less cold tolerant. However, no differences were detected among the three habitats. We then examined whether maintenance temperature affects CCRT and HSRT, and expected beneficial acclimation. However, CCRT was unaffected by maintenance temperature, while temperature affected HSRT in an opposite direction to our prediction: wormlions maintained under the higher temperatures took longer to recover. When testing with two successive thermal shocks, wormlions took longer to recover from both cold and heat shock after applying an initial cold shock. We therefore conclude that cold shock inflicts some damage rather than induces acclimation. Finally, both cold- and heat-shocked wormlions constructed smaller pits than wormlions of a control group. Smaller pits probably translate to a lower likelihood of capturing prey and also limit the size of the prey, indicating a concrete cost of thermal shock. In summary, we found no evidence for thermal acclimation related either to the habitat-of-origin or to maintenance temperatures, but, rather, negative effects of unfavorable temperatures., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

109. STAT1 is a sex-specific tumor suppressor in colitis-associated colorectal cancer.

Author

Crnčec I, Modak M, Gordziel C, Svinka J, Scharf I, Moritsch S, Pathria P, Schlederer M, Kenner L, Timelthaler G, Müller M, Strobl B, Casanova E, Bayer E, Mohr T, Stöckl J, Friedrich K, and Eferl R

Subjects

Animals, CD8-Positive T-Lymphocytes metabolism, CD8-Positive T-Lymphocytes pathology, Chemokines biosynthesis, Colitis chemically induced, Colitis pathology, Colorectal Neoplasms chemically induced, Colorectal Neoplasms genetics, Colorectal Neoplasms pathology, Dextran Sulfate toxicity, Female, Gene Expression Regulation, Neoplastic, Humans, Male, Mice, Mice, Transgenic, Receptors, Antigen, T-Cell, alpha-beta metabolism, STAT1 Transcription Factor genetics, Tumor Suppressor Proteins genetics, Colitis metabolism, Colorectal Neoplasms metabolism, STAT1 Transcription Factor metabolism, Sex Characteristics, Tumor Suppressor Proteins metabolism

Abstract

The interferon-inducible transcription factor STAT1 is a tumor suppressor in various malignancies. We investigated sex-specific STAT1 functions in colitis and colitis-associated colorectal cancer (CRC) using mice with specific STAT1 deletion in intestinal epithelial cells (STAT1 ∆IEC ). Male but not female STAT1 ∆IEC mice were more resistant to DSS-induced colitis than sex-matched STAT1 flox/flox controls and displayed reduced intraepithelial infiltration of CD8 + TCRαβ + granzyme B + T cells. Moreover, DSS treatment failed to induce expression of T-cell-attracting chemokines in intestinal epithelial cells of male but not of female STAT1 ∆IEC mice. Application of the AOM-DSS protocol for induction of colitis-associated CRC resulted in increased intestinal tumor load in male but not in female STAT1 ∆IEC mice. A sex-specific stratification of human CRC patients corroborated the data obtained in mice and revealed that reduced tumor cell-intrinsic nuclear STAT1 protein expression is a poor prognostic factor in men but not in women. These data demonstrate that epithelial STAT1 is a male-specific tumor suppressor in CRC of mice and humans., (© 2018 The Authors. Published by FEBS Press and John Wiley & Sons Ltd.)

Published

2018

110. Little effect of climate change on body size of herbivorous beetles.

Author

Baar Y, Friedman ALL, Meiri S, and Scharf I

Subjects

Animals, Rain, Body Size, Climate Change, Coleoptera

Abstract

Ongoing climate change affects various aspects of an animal's life, with important effects on distribution range and phenology. The relationship between global warming and body size changes in mammals and birds has been widely studied, with most findings indicating a decline in body size over time. Nevertheless, little data exist on similar size change patterns of invertebrates in general and insects in particular, and it is unclear whether insects should decrease in size or not with climate warming. We measured over 4000 beetle specimens, belonging to 29 beetle species in 8 families, collected in Israel during the last 100 years. The sampled species are all herbivorous. We examined whether beetle body size had changed over the years, while also investigating the relationships between body size and annual temperature, precipitation, net primary productivity (NPP) at the collection site and collection month. None of the environmental variables, including the collection year, was correlated with the size of most of the studied beetle species, while there were strong interactions of all variables with species. Our results, though mostly negative, suggest that the effect of climate change on insect body size is species-specific and by no means a general macro-ecological rule. They also suggest that the intrapopulation variance in body size of insects collected as adults in the field is large enough to conceal intersite environmental effects on body size, such as the effect of temperature and NPP., (© 2016 Institute of Zoology, Chinese Academy of Sciences.)

Published

2018

111. Dynamics of CRISPR/Cas9-mediated genomic editing of the AXL locus in hepatocellular carcinoma cells.

Author

Scharf I, Bierbaumer L, Huber H, Wittmann P, Haider C, Pirker C, Berger W, and Mikulits W

Abstract

Genomic editing using the CRISPR/Cas9 technology allows selective interference with gene expression. With this method, a multitude of haploid and diploid cells from different organisms have been employed to successfully generate knockouts of genes coding for proteins or small RNAs. Yet, cancer cells exhibiting an aberrant ploidy are considered to be less accessible to CRISPR/Cas9-mediated genomic editing, as amplifications of the targeted gene locus could hamper its effectiveness. Here we examined the suitability of CRISPR/Cas9 to knockout the receptor tyrosine kinase Axl in the human hepatoma cell lines HLF and SNU449. The genomic editing events were validated in two single cell clones each from putative HLF and SNU449 knockout cells (HLF-Axl - -1, HLF-Axl - -2, SNU449-Axl - -1, SNU449-Axl - -2). Sequence analysis of respective AXL loci revealed one to six editing events in each individual Axl - clone. The majority of insertions and deletions in the AXL gene at exon 7/8 resulted in a frameshift and thus a premature stop in the coding region. However, one genomic editing event led to an insertion of two amino acids resulting in an altered protein sequence rather than in a frameshift in the AXL locus of the SNU449-Axl - -1 cells. Notably, while no Axl protein expression could be detected by immunoblotting in all four cell clones, both expression of total Axl as well as release of soluble Axl into the supernatant was observed by ELISA in incompletely edited SNU449-Axl - -1 cells. Importantly, a comparative genomic hybridization array revealed comparable genomic changes in Axl knockout cells as well as in cells expressing Cas9 nickase without guide RNAs in SNU449 and HLF cells, indicating vast alterations in genomic DNA triggered by nickase. Together, these data show that the dynamics of CRISPR/Cas9 may cause incomplete editing events in cancer cell lines, as gene copy numbers vary based on genomic heterogeneity.

Published

2018

112. Distinct effects of two separately applied stressors on behavior in the red flour beetle.

Author

Wexler Y and Scharf I

Subjects

Animals, Body Weight, Cold-Shock Response, Female, Food Deprivation, Male, Motor Activity, Social Environment, Behavior, Animal, Stress, Physiological, Tribolium

Abstract

Stress is ubiquitous in nature and organisms have evolved mechanisms to cope with it. Stress responses nevertheless vary based on the type of stress, its duration, magnitude, and the organism's physiological status. We studied here the effect of two separately applied stress types, differing also in their duration, on various behavioral responses of the red flour beetle (Tribolium castaneum). The two stress types applied were short-term cold stress and long-term low protein stress. The behavioral response variables were movement activity, preference to move along the test arena edges, latency to emerge from shelter, and preference for dark microhabitat, measured at two stages of the beetles' lives, as young adults after eclosion and one month later. Behavioral responses were stress-specific. Cold-stressed beetles moved over the longest distances but were also the most reluctant to leave an accessible shelter. We interpret this to mean that cold-stressed beetles were the most active under unfavorable conditions and least bold under more favorable, protected conditions. As beetles aged, their movement activity decreased and latency to emerge from shelter increased. Non-stressed beetles were the most consistent in their behavior across all behavioral tests. This finding is similar to those in previous studies and suggests that moderate stress reduces behavioral consistency. While all beetles gained mass during the study period, the two stress types led to different patterns of body mass increase, which was more moderate for cold-stressed than for protein-stressed beetles., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

113. Group dynamics and relocation decisions of a trap-building predator are differentially affected by biotic and abiotic factors.

Author

Katz N, Shavit R, Pruitt JN, and Scharf I

Abstract

Most habitats in nature are heterogeneous, incorporating favorable and unfavorable microhabitats for different animals, based on their ecological niche. Unsuitable microhabitats have negative consequences for individual growth and survival. Animals, therefore, should fine-tune their location within the habitat by dispersing away from such microhabitats. We studied the suitability of different constant microhabitat conditions for wormlion larvae, a trap-building predator, tested in groups under laboratory conditions. Wormlions construct pit-traps in loose soil and capture small arthropod prey. As wormlions occur in high densities in nature, testing in groups is thus more indicative of their natural behavior than testing individuals. Wormlions responded strongly to biotic conditions-high conspecific density, starvation, and large body mass of conspecifics-by either increasing pit-relocation events or moving away from the microhabitat center to the periphery of the arena, probably opting for a way out. In other instances, individuals increased their distance to the nearest neighbor, thereby changing the spatial pattern toward a more regular pattern, potentially indicating interference competition. The only abiotic condition apparently perceived by wormlions as unsuitable was shallow sand, which led to frequent relocations. The two other abiotic factors-illumination and sand particle size-had no observable effect on behavior, although wormlions in nature always occur under shade in fine sand, and prefer both shade and fine sand particle size under laboratory conditions when given a choice. Under the fine spatial scale of the present experiment, biotic factors appear to be more influential than abiotic ones.

Published

2017

114. Mating system, mate choice and parental care in a bark beetle.

Author

Baruch O, Mendel Z, Scharf I, and Harari AR

Subjects

Animals, Cupressus, Female, Male, Coleoptera, Mating Preference, Animal, Nesting Behavior

Abstract

The cypress bark beetle, Phloeosinus armatus, is a common element of the dying cypress tree system in East-Mediterranean countries. Adult beetles congregate for breeding on this ephemeral resource. We studied three traits that characterize this beetle's sexual behavior and linked them to its reproductive success: mating system, mate choice, and parental care. We found that the females are the 'pioneering sex', excavating the mating chamber. The average female is slightly larger than the male, and female and male body size is correlated, demonstrating size-assortative mating. The time it takes for a male to enter the mating chamber is positively correlated with female size and negatively correlated with its own size, which is perhaps responsible for this assortative mating. Males remain in the gallery during the period of oviposition, gradually leaving soon after the eggs hatch. The number of eggs laid and tunnel length are positively correlated with male body size. Finally, in the presence of both parents, more eggs are laid than when the female alone is present, demonstrating the important contribution of biparental care for reproductive success. We suggest that the interaction between a monogamous mating system, assortative mating, and biparental care contributes to reproductive success.

Published

2017

115. The interplay between maze complexity, colony size, learning and memory in ants while solving a maze: A test at the colony level.

Author

Saar M, Gilad T, Kilon-Kallner T, Rosenfeld A, Subach A, and Scharf I

Subjects

Animals, Ants physiology, Feeding Behavior, Maze Learning, Memory

Abstract

Central-place foragers need to explore their immediate habitat in order to reach food. We let colonies of the individually foraging desert ant Cataglyphis niger search for a food reward in a maze. We did so for three tests per day over two successive days and an additional test after a time interval of 4-20 days (seven tests in total). We examined whether the colonies reached the food reward faster, consumed more food and changed the number of workers searching over time, within and between days. Colonies' food-discovery time shortened within and between days, indicating that some workers learnt and became more efficient in moving through the maze. Such workers, however, also forgot and deteriorated in their food-discovery time, leveling off back to initial performance after about two weeks. We used mazes of increasing complexity levels, differing in the potential number of wrong turns. The number of workers searching increased with colony size. Food-discovery time also increased with colony size in complex mazes but not in simple ones, perhaps due to the more frequent interactions among workers in large colonies having to move through narrow routes. Finally, the motivation to solve the maze was probably not only the food reward, because food consumption did not change over time.

Published

2017

116. The effect of fasting and body reserves on cold tolerance in 2 pit-building insect predators.

Author

Scharf I, Daniel A, MacMillan HA, and Katz N

Abstract

Pit-building antlions and wormlions are 2 distantly-related insect species, whose larvae construct pits in loose soil to trap small arthropod prey. This convergent evolution of natural histories has led to additional similarities in their natural history and ecology, and thus, these 2 species encounter similar abiotic stress (such as periodic starvation) in their natural habitat. Here, we measured the cold tolerance of the 2 species and examined whether recent feeding or food deprivation, as well as body composition (body mass and lipid content) and condition (quantified as mass-to-size residuals) affect their cold tolerance. In contrast to other insects, in which food deprivation either enhanced or impaired cold tolerance, prolonged fasting had no effect on the cold tolerance of either species, which had similar cold tolerance. The 2 species differed, however, in how cold tolerance related to body mass and lipid content: although body mass was positively correlated with the wormlion cold tolerance, lipid content was a more reliable predictor of cold tolerance in the antlions. Cold tolerance also underwent greater change with ontogeny in wormlions than in antlions. We discuss possible reasons for this lack of effect of food deprivation on both species' cold tolerance, such as their high starvation tolerance (being sit-and-wait predators).

Published

2017

117. The effect of previous experience on trap construction and movement distance in a pit-building predator.

Author

Adar S, Scharf I, and Dor R

Subjects

Animal Migration, Animals, Larva, Learning, Diptera physiology, Predatory Behavior physiology

Abstract

Wormlion larvae are sit-and-wait predators that construct cone-shaped pits in sandy patches to capture prey. Wormlions select microhabitats that feature favorable conditions for pit construction, in a similar way to other trap-building predators, like spiders and antlions. We investigated whether wormlions exhibit an experience-based behavioral plasticity in their pit construction behavior. In a laboratory experiment, pit sizes and relocation distances were compared between larvae that experienced either a period of unfavorable conditions, i.e., surface obstacles, shallow or coarse sand, or a period of favorable conditions, i.e., clear, deep, and fine sand and were able to construct pits undisturbed. We expected that wormlions experiencing improving conditions would build larger pits than those experiencing deteriorating conditions. In addition, we expected that larvae experiencing unfavorable conditions would be less choosy in their new microhabitat and move over shorter distances. We observed a certain effect of recent experience on the trap-building behavior; however, it was not consistent among treatments. Additionally, we detected a correlation between larval body mass, relocation distance, and pit area. These findings might suggest that past experience does not influence wormlion foraging behavior in a simple manner but that different types of experience induce different behavioral responses.

Published

2016

118. The negative effect of starvation and the positive effect of mild thermal stress on thermal tolerance of the red flour beetle, Tribolium castaneum.

Author

Scharf I, Wexler Y, MacMillan HA, Presman S, Simson E, and Rosenstein S

Subjects

Animals, Cold Temperature, Female, Male, Sex Factors, Caloric Restriction, Hot Temperature, Stress, Physiological physiology, Tribolium physiology

Abstract

The thermal tolerance of a terrestrial insect species can vary as a result of differences in population origin, developmental stage, age, and sex, as well as via phenotypic plasticity induced in response to changes in the abiotic environment. Here, we studied the effects of both starvation and mild cold and heat shocks on the thermal tolerance of the red flour beetle, Tribolium castaneum. Starvation led to impaired cold tolerance, measured as chill coma recovery time, and this effect, which was stronger in males than females, persisted for longer than 2 days but less than 7 days. Heat tolerance, measured as heat knockdown time, was not affected by starvation. Our results highlight the difficulty faced by insects when encountering multiple stressors simultaneously and indicate physiological trade-offs. Both mild cold and heat shocks led to improved heat tolerance in both sexes. It could be that both mild shocks lead to the expression of heat shock proteins, enhancing heat tolerance in the short run. Cold tolerance was not affected by previous mild cold shock, suggesting that such a cold shock, as a single event, causes little stress and hence elicits only weak physiological reaction. However, previous mild heat stress led to improved cold tolerance but only in males. Our results point to both hardening and cross-tolerance between cold and heat shocks.

Published

2016

119. The Effects of Temperature and Diet during Development, Adulthood, and Mating on Reproduction in the Red Flour Beetle.

Author

Scharf I, Braf H, Ifrach N, Rosenstein S, and Subach A

Subjects

Animals, Diet, Sexual Behavior, Animal physiology, Temperature, Tribolium genetics, Environment, Reproduction genetics, Tribolium growth & development

Abstract

The effects of different temperatures and diets experienced during distinct life stages are not necessarily similar. The silver-spoon hypothesis predicts that developing under favorable conditions will always lead to better performing adults under all adult conditions. The environment-matching hypothesis suggests that a match between developmental and adult conditions will lead to the best performing adults. Similar to the latter hypothesis, the beneficial-acclimation hypothesis suggests that either developing or acclimating as adults to the test temperature will improve later performance under such temperature. We disentangled here between the effect of growth, adult, and mating conditions (temperature and diet) on reproduction in the red flour beetle (Tribolium castaneum), in reference to the reproduction success rate, the number of viable offspring produced, and the mean offspring mass 13 days after mating. The most influential stage affecting reproduction differed between the diet and temperature experiments: adult temperature vs. parental growth diet. Generally, a yeast-rich diet or warmer temperature improved reproduction, supporting the silver-spoon hypothesis. However, interactions between life stages made the results more complex, also fitting the environment-matching hypothesis. Warm growth temperature positively affected reproduction success, but only when adults were kept under the same warm temperature. When the parental growth and adult diets matched, the mean offspring mass was greater than in a mismatch between the two. Additionally, a match between warm adult temperature and warm offspring growth temperature led to the largest offspring mass. These findings support the environment-matching hypothesis. Our results provide evidence for all these hypotheses and demonstrate that parental effects and plasticity may be induced by temperature and diet.

Published

2015

120. Foraging syndromes and trait variation in antlions along a climatic gradient.

Author

Alcalay Y, Scharf I, and Ovadia O

Subjects

Animals, Ecosystem, Biological Evolution, Environment, Feeding Behavior, Insecta, Larva, Phenotype, Selection, Genetic

Abstract

Behavioral syndromes arise when individual behavior is correlated over time and/or across environmental contexts, often resulting in inter-population behavioral differences. Three main hypotheses have been suggested to explain the evolution of behavioral syndromes. The constraint hypothesis suggests that behaviors originate from a shared mechanism with a strong genetic or physiological basis. In contrast, according to the adaptive hypothesis, behavioral syndromes depend on specific selective pressures in each environment, and thus should evolve when specific behavioral combinations are advantageous. Finally, behavioral syndromes can also arise owing to neutral stochastic processes. We tested here for variation in the foraging syndromes of pit-building antlions originating from different populations along a climatic gradient. Although inter-population variation existed in some traits, foraging syndromes were similar across populations, supporting the constraint hypothesis. These findings suggest that stabilizing selection, acting on the foraging behavior of antlions during their larval phase, outweighs local selection pressures, resulting in "constraint syndromes." We also explored behavioral repeatability of foraging-related traits within and among habitats (natural, novel and disturbed habitats), and detected different levels of repeatability: pit diameter was more repeatable than response time to prey, followed by prey exploitation efficiency. Behavioral repeatability of the same trait differed according to context, suggesting that repeatability is a trait in itself and should not be considered identical even when studying the same behavioral trait.

Published

2015

121. Consequences of the instar stage for behavior in a pit-building antlion.

Author

Alcalay Y, Barkae ED, Ovadia O, and Scharf I

Subjects

Aging psychology, Animals, Body Size physiology, Body Weight physiology, Feeding Behavior, Head anatomy & histology, Individuality, Larva physiology, Life Cycle Stages, Personality, Predatory Behavior physiology, Reaction Time, Behavior, Animal physiology, Insecta growth & development, Insecta physiology

Abstract

Pit-building antlion larvae are opportunistic predators that dig conical pits in loose soils, and prey on small arthropods that fall into their traps. We investigated different behavioral traits of second and third instar larvae selected for similar body masses, while also exploring the behavioral consistency and personalities of the third instar stage. Second instar larvae constructed smaller pits than third instar larvae. The former also responded more slowly to prey and exploited prey less efficiently. Notably, all these instar-based differences disappeared after molting into the third instar stage. In addition, third instar larvae exhibited consistent behavior in their pit size, response times to prey and to less extent in relocation distances. We detected two axes of behavior. The first axis included a correlation between pit size, response time and prey exploitation efficiency, thus reflecting investment in foraging activity. The second axis seemed to represent a trade-off between response time and relocation distance, implying that individuals that responded more slowly to prey, relocated over larger distances. These results point to coordinated behavior reflecting different levels of investment in foraging, while also emphasizing the importance of instar stage, in addition to body mass, when studying the behavior of such organisms characterized by a complex life cycle., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2014

122. Ant societies buffer individual-level effects of parasite infections.

Author

Scharf I, Modlmeier AP, Beros S, and Foitzik S

Subjects

Animals, Body Size, Female, Male, Sex Ratio, Ants parasitology, Ants physiology, Cestoda physiology

Abstract

Parasites decrease host fitness and can induce changes in host behavior, morphology, and physiology. When parasites exploit social insects, they influence not only infected individuals but also the society as a whole. Workers of the ant Temnothorax nylanderi are an intermediate host for the cestode Anomotaenia brevis. We studied a heavily parasitized population and found that, although parasite infection had strong and diverse consequences for individual workers, colony fitness remained unchanged. At the individual level, we uncovered differences among the three worker types, infected and healthy workers from parasitized colonies and healthy workers from nonparasitized colonies. Infected workers were smaller than healthy ones and had smaller heads as parasite load increased. Behavioral changes extended to all workers from parasitized colonies; such workers were less active than workers in nonparasitized colonies but engaged in more grooming. Healthy workers from parasitized colonies showed behavioral patterns intermediate to those of infected workers and healthy workers from nonparasitized colonies. Despite the lower activity level found in ants from parasitized colonies, an important fitness parameter, per-worker productivity, remained unaltered in parasitized colonies. However, the investment strategies of parasitized colonies changed as their sex ratio became male biased and as male body size increased. In short, ant colonies can buffer the drain of resources by the parasite despite strong effects on individual workers.

Published

2012

123. Cold resistance depends on acclimation and behavioral caste in a temperate ant.

Author

Modlmeier AP, Pamminger T, Foitzik S, and Scharf I

Subjects

Animals, Ants anatomy & histology, Body Size physiology, Germany, Time Factors, Acclimatization physiology, Ants physiology, Behavior, Animal physiology, Cold Temperature

Abstract

Adjusting to low temperatures is important for animals living in cold environments. We studied the chill-coma recovery time in temperate ant workers (Temnothorax nylanderi) from colonies collected in autumn and spring in Germany. We experimentally acclimated these ant colonies to cold temperatures followed by warm temperatures. As expected, cold-acclimated workers recovered faster from freezing temperatures, but subsequent heat acclimation did not change the short recovery times observed after cold acclimation. Hence, either heat acclimation improves cold tolerance, possibly as a general response to stress, or at least it does not negate enhanced cold tolerance following cold acclimation. Colonies collected in spring showed similar cold tolerance levels to cold-acclimated colonies in the laboratory. Next, we compared the chill-coma recovery time of different worker castes and found that exterior workers recovered faster than interior workers. This difference may be related to their more frequent exposure to cold, higher activity level, or distinct physiology. Interior workers were also heavier and showed a higher gaster-to-head ratio and thorax ratio compared to exterior workers. An obvious difference between exterior and interior workers is activity level, but we found no link between activity and cold tolerance. This suggests that physiology rather than behavioral differences could cause the increased cold tolerance of exterior workers. Our study reveals the importance of acclimation for cold tolerance under natural and standardized conditions and demonstrates differences in cold tolerance and body dimensions in monomorphic behavioral castes of an ant.

Published

2012

124. Jack of all trades, master of all: a positive association between habitat niche breadth and foraging performance in pit-building antlion larvae.

Author

Barkae ED, Scharf I, Abramsky Z, and Ovadia O

Subjects

Animals, Ecosystem, Feeding Behavior physiology, Larva physiology, Predatory Behavior physiology, Soil, Species Specificity, Insecta physiology

Abstract

Species utilizing a wide range of resources are intuitively expected to be less efficient in exploiting each resource type compared to species which have developed an optimal phenotype for utilizing only one or a few resources. We report here the results of an empirical study whose aim was to test for a negative association between habitat niche breadth and foraging performance. As a model system to address this question, we used two highly abundant species of pit-building antlions varying in their habitat niche breadth: the habitat generalist Myrmeleon hyalinus, which inhabits a variety of soil types but occurs mainly in sandy soils, and the habitat specialist Cueta lineosa, which is restricted to light soils such as loess. Both species were able to discriminate between the two soils, with each showing a distinct and higher preference to the soil type providing higher prey capture success and characterizing its primary habitat-of-origin. As expected, only small differences in the foraging performances of the habitat generalist were evident between the two soils, while the performance of the habitat specialist was markedly reduced in the alternative sandy soil. Remarkably, in both soil types, the habitat generalist constructed pits and responded to prey faster than the habitat specialist, at least under the temperature range of this study. Furthermore, prey capture success of the habitat generalist was higher than that of the habitat specialist irrespective of the soil type or prey ant species encountered, implying a positive association between habitat niche-breadth and foraging performance. Alternatively, C. lineosa specialization to light soils does not necessarily confer upon its superiority in utilizing such habitats. We thus suggest that habitat specialization in C. lineosa is either an evolutionary dead-end, or, more likely, that this species' superiority in light soils can only be evident when considering additional niche axes.

Published

2012

125. Characterizing the collective personality of ant societies: aggressive colonies do not abandon their home.

Author

Scharf I, Modlmeier AP, Fries S, Tirard C, and Foitzik S

Subjects

Animals, Likelihood Functions, Aggression, Ants physiology, Behavior, Animal

Abstract

Animal groups can show consistent behaviors or personalities just like solitary animals. We studied the collective behavior of Temnothorax nylanderi ant colonies, including consistency in behavior and correlations between different behavioral traits. We focused on four collective behaviors (aggression against intruders, nest relocation, removal of infected corpses and nest reconstruction) and also tested for links to the immune defense level of a colony and a fitness component (per-capita productivity). Behaviors leading to an increased exposure of ants to micro-parasites were expected to be positively associated with immune defense measures and indeed colonies that often relocated to other nest sites showed increased immune defense levels. Besides, colonies that responded with low aggression to intruders or failed to remove infected corpses, showed a higher likelihood to move to a new nest site. This resembles the trade-off between aggression and relocation often observed in solitary animals. Finally, one of the behaviors, nest reconstruction, was positively linked to per-capita productivity, whereas other colony-level behaviors, such as aggression against intruders, showed no association, albeit all behaviors were expected to be important for fitness under field conditions. In summary, our study shows that ant societies exhibit complex personalities that can be associated to the physiology and fitness of the colony. Some of these behaviors are linked in suites of correlated behaviors, similar to personalities of solitary animals.

Published

2012

126. Experimental and theoretical characterization of the aromatization, epimerization, and fragmentation reactions of bi-2H-azirin-2-yls prepared from 1,4-diazidobuta-1,3-dienes.

Author

Banert K, Köhler F, Melzer A, Scharf I, Rheinwald G, Rüffer T, Lang H, Herges R, Hess K, Ghavtadze N, and Würthwein EU

Abstract

1,4-Diazidobuta-1,3-dienes (Z,Z)-10, 17, and 21 were photolyzed and thermolyzed to yield the pyridazines 13, 20, and 23, respectively. To explain these aromatic final products, the generation of highly strained bi-2H-azirin-2-yls 12, 19, and 22 and their valence isomerization were postulated. In the case of meso- and rac-22, nearly quantitative formation from diazide 21, isolation as stable solids, and complete characterization were possible. On the thermolysis of 22, aromatization to 23 was only a side reaction, whereas equilibration of meso- and rac-22 and fragmentation, which led to alkyne 24 and acetonitrile, dominated. Prolonged irradiation of 22 gave mainly the pyrimidine 25. The change of the configuration at C-2 of the 2H-azirine unit was observed not only in the case of bi-2H-azirin-2-yls 22 but also for simple spirocyclic 2H-azirines 29 at a relatively low temperature (75 °C). The fragmentation of rac-22 to give alkyne 24 and two molecules of acetonitrile was also studied by high-level quantum chemical calculations. For a related model system 30 (methyl instead of phenyl groups), two transition states TS-30-31 of comparable energy with multiconfigurational electronic states could be localized on the energy hypersurface for this one-step conversion. The symmetrical transition state complies with the definition of a coarctate mechanism., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

127. Foraging decisions and behavioural flexibility in trap-building predators: a review.

Author

Scharf I, Lubin Y, and Ovadia O

Subjects

Animals, Arthropods physiology, Behavior, Animal, Decision Making, Predatory Behavior

Abstract

Foraging theory was first developed to predict the behaviour of widely-foraging animals that actively search for prey. Although the behaviour of sit-and-wait predators often follows predictions derived from foraging theory, the similarity between these two distinct groups of predators is not always obvious. In this review, we compare foraging activities of trap-building predators (mainly pit-building antlions and web-building spiders), a specific group of sit-and-wait predators that construct traps as a foraging device, with those of widely-foraging predators. We refer to modifications of the trap characteristics as analogous to changes in foraging intensity. Our review illustrates that the responses of trap-building and widely-foraging predators to different internal and external factors, such as hunger level, conspecific density and predation threat are quite similar, calling for additional studies of foraging theory using trap-building predators. In each chapter of this review, we summarize the response of trap-building predators to a different factor, while contrasting it with the equivalent response characterizing widely-foraging predators. We provide here evidence that the behaviour of trap-building predators is not stereotypic or fixed as was once commonly accepted, rather it can vary greatly, depending on the individual's internal state and its interactions with external environmental factors., (© 2010 The Authors. Biological Reviews © 2010 Cambridge Philosophical Society.)

Published

2011

128. Spatial structure and nest demography reveal the influence of competition, parasitism and habitat quality on slavemaking ants and their hosts.

Author

Scharf I, Fischer-Blass B, and Foitzik S

Subjects

Animals, Ecosystem, Food Chain, Germany, Host-Parasite Interactions, Models, Biological, New York, Population Dynamics, West Virginia, Ants parasitology, Ants physiology, Nesting Behavior, Symbiosis

Abstract

Background: Natural communities are structured by intra-guild competition, predation or parasitism and the abiotic environment. We studied the relative importance of these factors in two host-social parasite ecosystems in three ant communities in Europe (Bavaria) and North America (New York, West Virginia). We tested how these factors affect colony demography, life-history and the spatial pattern of colonies, using a large sample size of more than 1000 colonies. The strength of competition was measured by the distance to the nearest competitor. Distance to the closest social parasite colony was used as a measure of parasitism risk. Nest sites (i.e., sticks or acorns) are limited in these forest ecosystems and we therefore included nest site quality as an abiotic factor in the analysis. In contrast to previous studies based on local densities, we focus here on the positioning and spatial patterns and we use models to compare our predictions to random expectations., Results: Colony demography was universally affected by the size of the nest site with larger and more productive colonies residing in larger nest sites of higher quality. Distance to the nearest competitor negatively influenced host demography and brood production in the Bavarian community, pointing to an important role of competition, while social parasitism was less influential in this community. The New York community was characterized by the highest habitat variability, and productive colonies were clustered in sites of higher quality. Colonies were clumped on finer spatial scales, when we considered only the nearest neighbors, but more regularly distributed on coarser scales. The analysis of spatial positioning within plots often produced different results compared to those based on colony densities. For example, while host and slavemaker densities are often positively correlated, slavemakers do not nest closer to potential host colonies than expected by random., Conclusions: The three communities are differently affected by biotic and abiotic factors. Some of the differences can be attributed to habitat differences and some to differences between the two slavemaking-host ecosystems. The strong effect of competition in the Bavarian community points to the scarcity of resources in this uniform habitat compared to the other more diverse sites. The decrease in colony aggregation with scale indicates fine-scale resource hotspots: colonies are locally aggregated in small groups. Our study demonstrates that species relationships vary across scales and spatial patterns can provide important insights into species interactions. These results could not have been obtained with analyses based on local densities alone. Previous studies focused on social parasitism and its effect on host colonies. The broader approach taken here, considering several possible factors affecting colony demography and not testing each one in isolation, shows that competition and environmental variability can have a similar strong impact on demography and life-history of hosts. We conclude that the effects of parasites or predators should be studied in parallel to other ecological influences.

Published

2011

129. Increased host aggression as an induced defense against slave-making ants.

Author

Pamminger T, Scharf I, Pennings PS, and Foitzik S

Abstract

Slave-making ants reduce the fitness of surrounding host colonies through regular raids, causing the loss of brood and frequently queen and worker death. Consequently, hosts developed defenses against slave raids such as specific recognition and aggression toward social parasites, and indeed, we show that host ants react more aggressively toward slavemakers than toward nonparasitic competitors. Permanent behavioral defenses can be costly, and if social parasite impact varies in time and space, inducible defenses, which are only expressed after slavemaker detection, can be adaptive. We demonstrate for the first time an induced defense against slave-making ants: Cues from the slavemaker Protomognathus americanus caused an unspecific but long-lasting behavioral response in Temnothorax host ants. A 5-min within-nest encounter with a dead slavemaker raised the aggression level in T. longispinosus host colonies. Contrarily, encounters with nonparasitic competitors did not elicit aggressive responses toward non-nestmates. Increased aggression can be adaptive if a slavemaker encounter reliably indicates a forthcoming attack and if aggression increases postraid survival. Host aggression was elevated over 3 days, showing the ability of host ants to remember parasite encounters. The response disappeared after 2 weeks, possibly because by then the benefits of increased aggression counterbalance potential costs associated with it.

Published

2011

130. The involvement of sand disturbance, cannibalism and intra-guild predation in competitive interactions among pit-building antlion larvae.

Author

Barkae ED, Scharf I, Subach A, and Ovadia O

Subjects

Animals, Larva, Cannibalism, Competitive Behavior physiology, Insecta physiology, Predatory Behavior physiology, Silicon Dioxide

Abstract

Competition in trap-building predators such as antlion larvae is a complex biotic interaction, potentially involving exploitation competition, sand throwing (i.e., interference competition), cannibalism and intra-guild predation. We investigated the short-term behavioral and developmental responses of the strict sit-and-wait antlion predator Myrmeleon hyalinus to sand disturbance (i.e., quantification of the impact of severe sand throwing), and to con- and hetero-specific competition by a larger sit-and-pursue antlion species Lopezus fedtschenkoi. We found that antlions subjected to sand disturbances reduced their pit construction activity and relocated less often. Furthermore, the reduction in pit construction activity was stronger among antlions subjected to disturbances prior to feeding. Almost no death occurred during the sand disturbance experiment, but as expected, disturbances caused reductions in the relative growth rates of antlions. This negative effect was stronger in the group exposed to sand disturbances prior to feeding. The presence of the sit-and-pursue competitor led to reductions both in pit construction and in relocation activities of M. hyalinus. Although the per-capita food supply was identical in both experiments, only 48% of M. hyalinus larvae survived the competition experiment, and this pattern was consistent between the con- and hetero-specific treatments. However, in the presence of hetero-specific competitors, the relative growth rate of surviving larvae was significantly lower than that measured in the presence of con-specific competitors. Our study demonstrates that investigating the different components of complex biotic interactions can markedly improve our understanding of how these different factors interact to influence the behavior and life history of organisms., (Copyright © 2010 Elsevier GmbH. All rights reserved.)

Published

2010

131. A morphological and life history comparison between desert populations of a sit-and-pursue antlion, in reference to a co-occurring pit-building antlion.

Author

Scharf I, Filin I, Subach A, and Ovadia O

Subjects

Altitude, Animals, Body Weight, Desert Climate, Ecosystem, Feeding Behavior physiology, Finland, Growth, Israel, Larva physiology, Pupa physiology, Temperature, Diptera physiology, Life Cycle Stages physiology, Nesting Behavior physiology

Abstract

Although most antlion species do not construct pits, the vast majority of studies on antlions focused on pit-building species. We report here on a transplant experiment aiming to test for morphological and life history differences between two desert populations of a sit-and-pursue antlion species, Lopezus fedtschenkoi (Neuroptera: Myrmeleontidae), originating from habitats, which mainly differ in plant cover and productivity. We raised the antlion larvae in environmental chambers simulating either hyper-arid or Mediterranean climate. We found significant differences in the morphology and life history of L. fedtschenkoi larvae between the two populations. For example, the larvae originating from the more productive habitat pupated faster and had a higher growth rate. In agreement with the temperature-size rule, antlions reached higher final mass in the colder Mediterranean climate and exhibited a higher growth rate, but there was no difference in their developmental time. Observed differences in morphology between populations as well as those triggered by climate growing conditions could be explained by differences in size allometry. We also provide a quantitative description of the allometric growth axis, based on 12 morphological traits. Comparing the responses of L. fedtschenkoi with those observed in a co-occurring pit-building antlion indicated that there were neither shape differences that are independent of size nor was there a difference in the plasticity level between the two species.

Published

2009

132. A trade-off between growth and starvation endurance in a pit-building antlion.

Author

Scharf I, Filin I, and Ovadia O

Subjects

Analysis of Variance, Animals, Body Weight, Israel, Predatory Behavior physiology, Adaptation, Biological physiology, Insecta growth & development, Starvation

Abstract

Trade-offs have a central role in evolutionary ecology and life-history theory. Here, we present evidence for the existence of a rarely studied trade-off between growth rate and starvation endurance in larvae of a pit-building antlion. We first manipulated antlions' feeding regime and obtained a spectrum of growth rates. Next, we starved the antlions and documented their rate of mass loss. Antlions growing faster during the feeding phase also lost mass faster during the successive starvation period, implying the existence of an induced trade-off between fast growth and starvation endurance. Finally, we fed all antlions with prey items of similar mass and measured both the giving-up prey mass (i.e. the remaining body mass of the prey that was not converted into predator body mass), and growth efficiency of antlions (i.e. proportion of prey consumed, negatively correlated with giving-up prey mass). The giving-up mass was negatively correlated with the growth rate of the antlions during the feeding phase, and positively correlated with their growth rate during the starvation phase (the opposite pattern was evident when examining growth efficiency), incongruently with the common phenomenon of growth compensation (i.e. extracting more of the prey after a starvation period). We suggest that antlion larvae can adopt a physiological mode bounded by two extremes: one extreme is adapted to starvation, involving reduced metabolic rates but also reduced capability to exploit prey, while the other is adapted to fast growth, allowing an efficient exploitation of prey, but at the expense of lowered starvation endurance.

Published

2009

133. Phenotypic plasticity and variation in morphological and life-history traits of antlion adults across a climatic gradient.

Author

Scharf I, Filin I, Ben-Yehoshua D, and Ovadia O

Subjects

Animals, Demography, Phenotype, Climate, Ecosystem, Insecta anatomy & histology, Insecta growth & development

Abstract

We report here on two complementary experiments examining the effect of climate on morphological and life-history traits of antlion adults. We first examined whether body size and wing loading of emerging adults are plastic by raising larvae, collected from five antlion populations along Israel's sharp climatic gradient, in two environmental chambers simulating temperature and humidity of desert and Mediterranean climates. The variance in adult morphology was mostly related to body size, with adults of Mediterranean populations being larger than those of desert populations. Wing-to-thorax ratio was negatively correlated with temperature, compensating for the decrease in wing-beat frequency in colder environments. Differences between climatic treatments were significant for body size but not for the wing-to-thorax ratio, suggesting that body size is more plastic than the ratio between different body components. We next investigated how the exposure of antlion pupae to different climatic conditions influences the emerging adults. Adult body mass increased with final larval body mass at a faster rate when exposed to Mediterranean rather than desert conditions. Duration of the pupa stage was positively correlated with final larval mass, but only under Mediterranean conditions. Adult survival increased with initial mass (after eclosion), but was lower under desert conditions. Similarly, adults lost mass at a faster rate when exposed to desert conditions. Notably, the exposure of the pupae to varying climatic conditions had no effect on adult morphology. Climate is a major factor affecting insect life span and body size. Since body size is strongly linked to fecundity and survival, climate thus has a twofold effect on fitness: directly, and indirectly through body size.

Published

2009

134. Molecular characteristics and predictors of survival in patients with malignant neuroendocrine tumors.

Author

Arnold CN, Nagasaka T, Goel A, Scharf I, Grabowski P, Sosnowski A, Schmitt-Gräff A, Boland CR, Arnold R, and Blum HE

Subjects

Adult, Aged, Aged, 80 and over, Cell Differentiation, Chromosome Mapping, Colorectal Neoplasms pathology, DNA Methylation, Female, Genomic Instability, Humans, Immunohistochemistry, Loss of Heterozygosity, Male, Microsatellite Repeats genetics, Middle Aged, Neuroendocrine Tumors pathology, Polymerase Chain Reaction, Survival Analysis, Biomarkers, Tumor genetics, Colorectal Neoplasms genetics, Colorectal Neoplasms mortality, Neuroendocrine Tumors genetics, Neuroendocrine Tumors mortality

Abstract

To better understand the molecular pathogenesis of neuroendocrine tumors (NET), we investigated the molecular and clinical characteristics of malignant poorly differentiated colorectal NET and compared these findings with sporadic CRC and well-differentiated benign and malignant fore-/midgut NET. Tumors were analyzed and correlated for microsatellite instability (MSI) and the CpG island methylator phenotype (CIMP). NET were scored for proliferation using Ki-67. A total of 34 malignant poorly differentiated colorectal NET, 38 well-differentiated benign and malignant fore-/midgut-NET and 150 sporadic colorectal cancers (CRC) with known MSI status were investigated. Among the sporadic CRC, CIMP was significantly correlated with MSI-high (MSI-H) (p < 0.001). Of the 34 colorectal NET, 0/1 of the MSI-H, 3/5 (60%) of the MSI-L and 13/19 (68%) of the MSS tumors were CIMP+ (p = 0.17). Of the fore-/midgut-NET, none was MSI-H. 20/34 (59%) colorectal NET vs. 11/38 (29%) fore-/midgut-NET were CIMP+ (p = 0.01). The Ki-67 index was significantly higher in poorly differentiated colorectal NET compared to the less malignant fore-/midgut-NET (p < 0.0001). Besides the location in the colon, Ki-67 predicted poor outcome in NET (p < 0.0001). CIMP status did not affect survival. In NET, p16 methylation predicted a poor outcome (p = 0.0004). We conclude that molecular pathogenesis in sporadic CRC and poorly differentiated colorectal NET is different despite some similarities. Main differences between malignant well-differentiated and poorly differentiated NET are the Ki-67 proliferation rate and differential methylation in tumor-associated genes. Predictors of a poor outcome in patients with NET are poor differentiation, a high Ki-67 index and p16 methylation.

Published

2008

135. Prey encounter rate by predators: discussing the realism of grid-based models and how to model the predator's foraging mode: a reply to Avgar et al.

Author

Scharf I, Ovadia O, and Bouskila A

Subjects

Animals, Models, Biological, Predatory Behavior

Published

2008

136. A comparison between desert and Mediterranean antlion populations: differences in life history and morphology.

Author

Scharf I, Filin I, Golan M, Buchshtav M, Subach A, and Ovadia O

Subjects

Animals, Biometry, Body Size physiology, Insecta anatomy & histology, Insecta physiology, Larva anatomy & histology, Larva growth & development, Larva physiology, Seasons, Temperature, Desert Climate, Insecta growth & development, Metamorphosis, Biological physiology

Abstract

We performed a transplant experiment to compare the life histories and morphologies of five geographically representative antlion Myrmeleon hyalinus populations along a sharp climatic gradient, from a Mediterranean climate in Israel's north to a desert climate in the south. Larvae were raised in two environmental chambers simulating Mediterranean and desert climates to investigate the extent to which the different populations exhibit phenotypic plasticity. Along the north-to-south climatic gradient, we observed a gradient in body mass prior to pupation and in pupation rate. Mediterranean populations suffered higher mortality rate when exposed to desert conditions, whereas the mortality rate of desert populations was consistent between Mediterranean and desert conditions. Our results regarding body mass, pupation rate and mortality rate suggest that Mediterranean populations had a more flexible response compared with desert populations. An analysis of digital photographs was used to measure population morphological differences, which were usually indicative of a decrease in trait size along the north-to-south gradient. We show how climatic gradients translate into phenotypic differences in an antlion population and provide a morphometric tool to distinguish between instar stages.

Published

2008

137. Efficiency evaluation of two competing foraging modes under different conditions.

Author

Scharf I, Nulman E, Ovadia O, and Bouskila A

Subjects

Animals, Computer Simulation, Models, Biological, Feeding Behavior physiology, Predatory Behavior physiology

Abstract

Various foraging modes are employed by predators in nature, ranging from ambush to active predation. Although the foraging mode may be limited by physiological constraints, other factors, such as prey behavior and distribution, may come into play. Using a simulation model, we tested to what extent the relative success of an ambush and an active predator changes as a function of the relative velocity and movement directionality of prey and active predator. In accordance with previous studies, we found that when both active predator and prey use nondirectional movement, the active mode is advantageous. However, as movement becomes more directional, this advantage diminishes gradually to 0. Previous theoretical studies assumed that animal movement is nondirectional; however, recent field observations show that in fact animal movement usually has some component of directionality. We therefore suggest that our simulation is a better predictor of encounter rates than previous studies. Furthermore, we show that as long as the active predator cannot move faster than its prey, it has little or no advantage over the ambush predator. However, as the active predator's velocity increases, its advantage increases sharply.

Published

2006

138. Transverse myelitis with systemic lupus erythematosus.

Author

Scharf I, Nahir M, and Hemli J

Subjects

Adult, Female, Humans, Myelitis, Transverse drug therapy, Prednisone therapeutic use, Syndrome, Lupus Erythematosus, Systemic complications, Myelitis etiology, Myelitis, Transverse etiology

Published

1977

139. [Contribution to the study of the effectiveness of anti-influenza vaccinations with live virus vaccines].

Author

Cazacu E, Busuioc C, Stoicescu A, Tomi E, and Scharf I

Subjects

Adult, Humans, Antibody Formation, Influenza Vaccines, Influenza, Human immunology, Vaccination

Published

1966

140. [Hazards to the aged in cholelithiasis].

Author

Grözinger KH and Scharf I

Subjects

Adult, Age Factors, Aged, Cholecystectomy, Cholelithiasis epidemiology, Female, Germany, West, Humans, Male, Middle Aged, Sex Factors, Cholelithiasis surgery, Postoperative Complications epidemiology

Published

1972

141. [Contribution on the etiopathogenic role of E. coli of serologic groups O4 and O25 with the antigen fraction "L" in the toxic-septic epidemic syndrome in newborns].

Author

Bercovici C, Feldi C, Popa S, Freund S, Grumăzescu M, Scharf I, Iosub C, Beşleagă V, and Mihail A

Subjects

Diarrhea, Infantile etiology, Feces microbiology, Female, Gastroenteritis etiology, Humans, Infant, Newborn, Mastitis epidemiology, Otitis epidemiology, Pregnancy, Escherichia coli Infections immunology, Infant, Newborn, Diseases immunology, Sepsis etiology

Published

1966