Lamb production and feed intake in relation to degradability characteristics and metabolisable protein content of dried subterranean clover diets

A study was undertaken of three cultivars of subterranean clover (cvv. Larisa, Trikkala and Goulburn), harvested at 50% flower and again after 30 days, for liveweight gain and wool growth of lambs. Live weight gain (LWG) and wool growth (WG) of lambs were significantly higher (P < 0.001) at 50% flower than from the later harvest. The LWG and WG of lambs fed three cultivars of subterranean clover ranged from 137 to 162 and 8.9 to 12.7 g day⁻¹, respectively at 50% flower while at the later harvest, they ranged from 97 to 106 and 7.1 to 7.8 g day⁻¹, respectively. No significant differences in the live weight gain were observed between cultivars. The higher wool growth of lambs fed cv. Trikkala at 50% flower compared with lambs fed cv. Goulburn or cv. Larisa was associated with significantly higher intake of metabolisable protein, but no difference in wool growth and metabolisable protein were observed between lambs fed cv. Goulburn and cv. Larisa diets. The relations of feed intake with degradability characteristics of dry matter and cell wall organic matter (CWOM) were investigated. The inclusion of rate of degradation of CWOM with CWOM content per se significantly improved the predictive relationship for organic matter intake (R² = 0.55) and digestible organic matter intake (R² = 0.65). This study has quantified strong predictive relations of live weight gain and wool growth with the intake of metabolisable protein (R² = 0.66) for subterranean clover.     

Evaporative water loss in seven species of fossorial rodents: Does effect of degree of fossoriality and sociality exist?

In terrestrial endotherms, evaporation is a significant mechanism of water loss in hot environments. Although water is passively lost by evaporation, individuals can regulate it at different levels. Inhabiting a relatively stable environment characterized by mild ambient temperature (T_a) and high humidity can ensure a balanced water budget. Many fossorial rodents are well adapted to live in such conditions. In this study, evaporative water loss (EWL) of fossorial rodent species with different degree of adaptations to underground life (from strictly subterranean to those with regular surface activity) was evaluated. By measuring EWL, the specific contribution of either evaporative or non-evaporative components of heat loss can be determined. With the exception of the silvery mole-rat (Heliophobius argenteocinereus), in all tested rodents EWL is relatively stable below and within the thermoneutral zone (TNZ). As T_as increase above TNZ, EWL increases as does total thermal conductance, but conductance increases several times more than EWL. In addition, non-evaporative routes seem to be more important than evaporative heat loss in the analyzed species. No clear pattern of EWL in relation to a species degree of fossoriality or sociality was detected. In this context, atmosphere of burrows could affect EWL, since the high humidity found inside tunnels can establish limits on evaporation to favor water rather than thermal balance.     

Molecular Evolution of Cytochrome b of Subterranean Mole Rats, Spalax ehrenbergi Superspecies, in Israel

We describe the molecular evolution of cytochrome b of blind subterranean mole rats. We examined 12 individuals for nucleotide differences in the region of 402 base pairs of mitochondrial cytochrome b. Each individual represents a different population from the entire ecological and speciational range of the four chromosomal species in Israel (2n= 52, 54, 58, and 60) belonging to the Spalax ehrenbergi superspecies. Our results indicate the following. (i) There are seven first-position transitional differences, compared to 34 variable third positions, with no observed second-position substitutions. (ii) A maximum of four amino acids differences occurs across the range. (iii) Within-species diversity increases southward. Only 1 autoapomorphic substitution characterizes either 2n= 52 or 2n= 54, but 6–11 substitutions characterize 2n= 58, and 9–13 substitutions characterize 2n= 60. (iv) Both parsimony and maximum-likelihood trees suggest two monophyletic groups: (a) 2n= 52 and 54, and (b) 2n= 58 and 60, as identified earlier by other protein and DNA markers. (v) Mitochondrial cytochrome b heterogeneity is significantly correlated with climatic factors (rainfall) and biotic factors (body size and allozymes). We hypothesize that two selective regimes direct cytochrome b evolution in the S. ehrenbergi superspecies: (i) purifying selection in the flooded, mesic, hypoxic northern range of 2n= 52 and 54 and (ii) diversifying selection in the climatically spatiotemporal, xeric, and variable southern range of 2n= 58 and 60. Thus, the molecular evolution of mitochondrial cytochrome b in S. ehrenbergi is explicable by opposite selective stresses across the range of S. ehrenbergi in Israel, associated with the ecological adaptive radiation of the complex. Received: 23 October 1998 / Accepted: 2 May 1999     

Reactions to disturbances in the context of antipredatory behaviour in a solitary subterranean rodent

We investigated reactions of free-living silvery mole-rats (Heliophobius argenteocinereus) to anthropogenic disturbances. Mole-rats detected soil vibrations caused by man carefully walking at a distance of up to 6 m (proved by radio-telemetry). Occasionally, mole-rats encountered outside a nest retreated there after this type of disturbance. After having their burrows broken into, the mole-rats retreated into deep tunnels, separating themselves from the rest of the burrows by soil plugs. Trapping success of silvery mole-rats using live traps for subterranean rodents was low, which contrasts with data so far published on social bathyergids. Antipredatory function of examined behaviours is discussed.