Male expulsion in cooperative Mongolian gerbils (Meriones unguiculatus).

Mongolian gerbils are territorial rodents of steppes and semideserts of Mongolia and Northern China. At least under laboratory conditions, the family life is characterized by long-term harmonious and short-term aggressive periods in which some members are expelled. The purpose of this study was to clarify which features of male offspring promote their expulsion. Therefore body mass, absolute and relative weight of testes and epididymis, histology of testes and testosterone concentrations were analyzed in males derived from five families living in semi-natural enclosures with food and water ad libitum. Males expelled (EFM, n=40) had significantly higher relative testes and relative epididymis weight and higher testosterone concentrations in harmonious periods than it did non-attacked ones (IFM, n=13). A stepwise discriminant analysis has established the relative testes weight as decisive for the affiliation to EFM or IFM. Based on this parameter, 71.7% of the offspring could be classified correctly. Moreover, histological results showed that 50.0% of integrated and 29.4% of the expelled family members had incomplete spermiogenesis, indicating a reduced fertility. It is concluded, that males do compete for reproduction within the families which triggers the expulsion of the males with the highest reproductive capacity.

Running-wheel activity and body composition in golden hamsters (Mesocricetus auratus).

Running wheels are frequently used in behavioural and physiological experiments. The function of wheel-running activity in laboratory animals is controversial. In the present long-term study, the influence of this activity was evaluated in male golden hamsters over a period of 52 weeks. Four months after the start of the experiment, hamsters with access to running wheels were significantly heavier than those without these wheels. In addition, food consumption nearly doubled. The absolute values of fat-free mass (FFM), total body water (TBW) and crude fat mass (CFM) increased. However, in contrast to these absolute differences, the relative values were never different and general body composition was therefore unaffected by running-wheel activity. Different organ masses were established for absolute values of kidneys, testes and epididymis; possible effects on reproduction are discussed. The present data indicating improved physical condition leads to the assumption that a running wheel is a useful enrichment, enhancing animal welfare in the golden hamster.

Social categories in families of Mongolian gerbils.

Mongolian gerbils are a species of rodent in Asia living in families, although aggression occurs within these social units. The aim of this study was to determine the causes for the surge of intrafamily aggression and to characterize different types of animals. Due to behavioral measures, animals were assigned to distinct social categories and the consequences of social stress were analyzed on an individual level. Four families established from founder pairs were kept for up to 2.5 years in large enclosures. Social interactions within each family were recorded for at least 5 days per week throughout the long-term experiment and fecal samples were collected weekly for the determination of corticosterone concentration. Moreover, adrenals were weighed and histologically analyzed. Two main causes for the outbreak of aggression were distinguished: changes in family structure and female competition for reproduction. As a result of these aggression periods, it was possible to divide animals into social categories: (1) integrated family members (IFM), (2) founder pair animals (FPA) and (3) expelled family members (EFM). Integrated animals had the lightest adrenal glands [related to the fat-free mass (FFM)] and lowest corticosterone level in aggression periods. Founder animals were never attacked by other members, reproduced successfully and displayed the highest stress level in most of the measured parameters. EFM were attacked and excluded mainly by the founder females. Their stress level was intermediate.

Asynchrony in the estrous cycles of golden hamsters (Mesocricetus auratus).

The golden hamster has been described as exhibiting estrous cycle synchrony caused by social dominance. This has recently been reexamined by J. C. Schank (2000, Horm. Behav. 38, 94-101) with the aid of computer simulations. He concluded that there is no evidence for cycle synchrony among golden hamsters. In the present article we confirm this theoretical approach with the help of long-term experiments. Indeed, estrous cycle asynchrony was observed. Singly housed female golden hamsters in phase with their neighbors and in physical contact desynchronized their 4-day cycles after 2 or 3 weeks. Asynchrony was caused mainly by stochastic 5-day cycles. Statistical analysis was performed using a Monte-Carlo bootstrap approach. Based on the empirical data, an individual-based computer model was developed to simulate the dynamics of cycle desynchronization. Potential advantages were deduced for the population level. It emerged that estrous cycle asynchrony led to higher reproductive success for females where the probability of fertilization was low (e.g., after hibernation, poor habitat).