Your search keyword '"Wasserberg, Gideon"' showing total 4 results

1. Large scale systemic control short‐circuits pathogen transmission by interrupting the sand rat (Psammomys obesus)‐to‐sand fly (Phlebotomus papatasi) Leishmania major transmission cycle.

Author

Tsurim, Ido, Wasserberg, Gideon, Warburg, Alon, Abbasi, Ibrahim, Ben Natan, Gil, and Abramsky, Zvika

Subjects

*SAND flies, *MONGOLIAN gerbil, *PHLEBOTOMUS, *PSYCHODIDAE, *VECTOR control, *PATHOGENIC microorganisms, *LEISHMANIA

Abstract

Systemic control uses the vertebrate hosts of zoonotic pathogens as "Trojan horses," killing blood‐feeding female vectors and short‐circuiting host‐to‐vector pathogen transmission. Previous studies focused only on the effect of systemic control on vector abundance at small spatial scales. None were conducted at a spatial scale relevant for vector control and none on the effect of systemic control on pathogen transmission rates. We tested the application of systemic control, using Fipronil‐impregnated rodent baits, in reducing Leishmania major (Kinetoplastida: Trypanosomatidae; Yakimoff & Schokhor, 1914) infection levels within the vector, Phlebotomus papatasi (Diptera: Psychodidae; Scopoli, 1786) population, at the town‐scale. We provided Fipronil‐impregnated food‐baits to all Psammomys obesus (Mammalia:Muridae; Cretzschmar, 1828), the main L. major reservoir, burrows along the southern perimeter of the town of Yeruham, Israel, and compared sand fly abundance and infection levels with a non‐treated control area. We found a significant and substantial treatment effect on L. major infection levels in the female sand fly population. Sand fly abundance was not affected. Our results demonstrate, for the first time, the potential of systemic control in reducing pathogen transmission rates at a large, epidemiologically relevant, spatial scale. [ABSTRACT FROM AUTHOR]

Published

2023

2. Host culling as an adaptive management tool for chronic wasting disease in white-tailed deer: a modelling study.

Author

Wasserberg, Gideon, Osnas, Erik E., Rolley, Robert E., and Samuel, Michael D.

Subjects

*CHRONIC wasting disease, *DISEASE management, *WHITE-tailed deer, *COMPUTER simulation, *ANIMAL population density, *DEER populations, *CERVIDAE, *DISEASES

Abstract

1. Emerging wildlife diseases pose a significant threat to natural and human systems. Because of real or perceived risks of delayed actions, disease management strategies such as culling are often implemented before thorough scientific knowledge of disease dynamics is available. Adaptive management is a valuable approach in addressing the uncertainty and complexity associated with wildlife disease problems and can be facilitated by using a formal model. 2. We developed a multi-state computer simulation model using age, sex, infection-stage, and seasonality as a tool for scientific learning and managing chronic wasting disease (CWD) in white-tailed deer Odocoileus virginianus. Our matrix model used disease transmission parameters based on data collected through disease management activities. We used this model to evaluate management issues on density- (DD) and frequency-dependent (FD) transmission, time since disease introduction, and deer culling on the demographics, epizootiology, and management of CWD. 3. Both DD and FD models fit the Wisconsin data for a harvested white-tailed deer population, but FD was slightly better. Time since disease introduction was estimated as 36 (95% CI, 24–50) and 188 (41–>200) years for DD and FD transmission, respectively. Deer harvest using intermediate to high non-selective rates can be used to reduce uncertainty between DD and FD transmission and improve our prediction of long-term epidemic patterns and host population impacts. A higher harvest rate allows earlier detection of these differences, but substantially reduces deer abundance. 4. Results showed that CWD has spread slowly within Wisconsin deer populations, and therefore, epidemics and disease management are expected to last for decades. Non-hunted deer populations can develop and sustain a high level of infection, generating a substantial risk of disease spread. In contrast, CWD prevalence remains lower in hunted deer populations, but at a higher prevalence the disease competes with recreational hunting to reduce deer abundance. 5. Synthesis and applications. Uncertainty about density- or frequency-dependent transmission hinders predictions about the long-term impacts of chronic wasting disease on cervid populations and the development of appropriate management strategies. An adaptive management strategy using computer modelling coupled with experimental management and monitoring can be used to test model predictions, identify the likely mode of disease transmission, and evaluate the risks of alternative management responses. [ABSTRACT FROM AUTHOR]

Published

2009

3. The role of site, habitat, seasonality and competition in determining the nightly activity patterns of psammophilic gerbils in a centrifugally organized community.

Author

Wasserberg, Gideon, Kotler, Burt P., and Abramsky, Zvika

Subjects

*GERBILS, *CIRCADIAN rhythms, *BIOLOGICAL rhythms, *HABITATS, *ANIMAL ecology, *MURIDAE, *PREDATION, *PARASITISM, *ZOOLOGY

Abstract

Major ecological forces affecting diel activity patterns include predation, competition, resource dynamics, and ambient conditions. In this work we studied if, how, and why the nocturnal activity patterns of two gerbil species differed with respect to site, habitat, season, and inter-specific competition. The study system included two gerbil species- Gerbillus pyramidum and G. andersoni allenbyi in a sandy landscape composed of three habitats-shifting, semi-stabilized, and stabilized sand habitats. Conforming to previous studies, in the semi-stabilized sand habitat clear temporal partitioning in activity times occurred, with G. pyramidum being active earlier in the night and G. a. allenbyi being active in the later part of the night. As shown in previous studies in a different, more xeric site, removal of G. pyramidum demonstrated that this activity pattern is the result of interference competition by the latter on the former. Nocturnal activity pattern differed between habitats and seasons. Temporal partitioning occurred in the semi-stabilized sand habitat where both gerbil species were common. In the shifting sand habitat, G. pyramidum activity pattern was similar to that in the semi-stabilized sand habitat, but at a lower level. In the stabilized sand habitat where G. a. allenbyi occurred alone, its activity was the highest among the three habitats and was fairly constant throughout the night. Temporal partitioning occurred in the fall and early summer, but not in the early spring. The roles of predation risk, competition and resource dynamics in determining the gerbils’ temporal activity together with their implications for community structure, are discussed. [ABSTRACT FROM AUTHOR]

Published

2006

4. The use of time and space by male and female gerbils exploiting a pulsed resource.

Author

Kotler, Burt P., Dickman, Chris R., Wasserberg, Gideon, and Ovadia, Ofer

Subjects

GERBILS, FORAGING behavior, MURIDAE, HABITATS

Abstract

Foraging theory postulates that interference is a foraging cost and affects patch exploitation and activity times. One such system contains two species of seed-eating gerbils inhabiting sandy habitats in the Negev Desert of Israel. Low population densities of the dominant species allowed us to examine the interaction between males and females of the subordinate species,Gerbillus andersoni allenbyi, as a function of interference and resource renewal. We used giving-up densities (GUDs; the amount of food left in a resource patch when a forager abandons the patch) in seed trays to quantify patch use by gerbils. By placing 6 trays at each foraging station and either presenting all 6 trays at the start of the night (pulse treatment) or presenting one tray at a station 6 times per night (renewal treatment), we were able to manipulate characteristics of resource renewal. We used radio telemetry to obtain an independent assessment of activity. Male and femaleG. a. allenbyidiffered in their timing of activity, with males beginning earlier than females and remaining active later. This was most pronounced for the pulse treatment. For the renewal treatment, female activity in trays was more intense early in the night, but thereafter male activity was more intense. At the same time, telemetry showed that males and females did not differ in their total activity in or out of trays. This suggests that males begin their activity on the renewal treatment by exploiting the richest natural patches of seeds. Only later when these are depleted do they move to dominate the renewing seed trays. Finally, females exploited stabilized sand habitats more than did males, especially during the renewal treatment. Taken together, these findings suggest that maleG. a. allenbyiinterfere with foraging in females, causing temporal shifts in their use of space and resources. [ABSTRACT FROM AUTHOR]

Published

2005