The life history and decline of the threatened Australian frog,Litoria raniformis

A popular idea amongst ecologists last century was that animals which exploit dynamic environments often display ‘fast’ life history strategies (high fecundity, rapid growth and maturation, and low or variable adult survival rates) relative to those which occupy more stable environments. Whilst the underlying theory has been discredited, the categorization remains of interest, because species with ‘fast’ life history traits are thought to be more robust to human‐induced environmental change than those with ‘slow’ life history traits. We examined the life history traits of the endangered Australian frog Litoria raniformis, to determine whether it displays ‘fast’ life history traits (like its sister species L. aurea and L. castanea), and to assess the role of these traits in the decline of this species. Mark‐recapture data confirmed that L. raniformis displays rapid growth and maturation. The data also suggest that L. raniformis displays relatively low adult survival rates. We propose that the ‘fast’ life history traits of this species are adaptive to metapopulation dynamics. In turn, we suggest that the rapid decline of L. raniformis may have resulted from metapopulation collapse, driven ultimately by habitat loss, degradation and fragmentation, and proximately by severe stochastic perturbations.     

Improving biodiversity monitoring

Effective biodiversity monitoring is critical to evaluate, learn from, and ultimately improve conservation practice. Well conceived, designed and implemented monitoring of biodiversity should: (i) deliver information on trends in key aspects of biodiversity (e.g. population changes); (ii) provide early warning of problems that might otherwise be difficult or expensive to reverse; (iii) generate quantifiable evidence of conservation successes (e.g. species recovery following management) and conservation failures; (iv) highlight ways to make management more effective; and (v) provide information on return on conservation investment. The importance of effective biodiversity monitoring is widely recognized (e.g. Australian Biodiversity Strategy). Yet, while everyone thinks biodiversity monitoring is a good idea, this has not translated into a culture of sound biodiversity monitoring, or widespread use of monitoring data. We identify four barriers to more effective biodiversity monitoring in Australia. These are: (i) many conservation programmes have poorly articulated or vague objectives against which it is difficult to measure progress contributing to design and implementation problems; (ii) the case for long‐term and sustained biodiversity monitoring is often poorly developed and/or articulated; (iii) there is often a lack of appropriate institutional support, co‐ordination, and targeted funding for biodiversity monitoring; and (iv) there is often a lack of appropriate standards to guide monitoring activities and make data available from these programmes. To deal with these issues, we suggest that policy makers, resource managers and scientists better and more explicitly articulate the objectives of biodiversity monitoring and better demonstrate the case for greater investments in biodiversitymonitoring. There is an urgent need for improved institutional support for biodiversity monitoring in Australia, for improved monitoring standards, and for improved archiving of, and access to, monitoring data. We suggest that more strategic financial, institutional and intellectual investments in monitoring will lead to more efficient use of the resources available for biodiversity conservation and ultimately better conservation outcomes.     

Using long-term ornithological studies in setting targets for conservation in Britain

Long-term studies are necessary in conservation work for two main purposes: monitoring of population parameters, and defining habitat requirements to set targets for conservation action. Apart from their intrinsic interest, birds may be of value also as a means of monitoring the wider environment. Current developments include the integration of measures of breeding performance and survival with those of population size. This will also aid early warning of changes. The range of normal variation in these measures needs assessment to identify limits beyond which action is needed. Monitoring studies need to be reported in appropriate habitat or geographical units, but cover as wide a geographical area as possible in a coordinated manner, to provide context. Long-term studies are required for defining requirements, as needs may vary with overall population size, weather conditions, and other features which differ between years. Population studies based on age-structures at a moment in time may not be a good approximation of the real performance as assessed by following age-cohorts through time. This may be especially so in rare species. For these, sample sizes also present problems in short studies. Long-term studies may be required also to identify the needs of less obvious components of populations, such as immature individuals.     

Control of the horizontal flight-course by air-current sense organs in Locusta migratoria

ABSTRACT. The role of the air-current sense organs of Locusta migratoria (the antennae and the hair fields on the frons and vertex of the head) in control of the horizontal flight-course in relation to the air was investigated in locusts flying tethered on a torque gauge. The antennae were apparently not of importance in the control of flight direction in the horizontal plane. If the hair fields were stimulated by an air current from either side, however, a torque on the vertical body axis was generated by the beating wings after a reaction time of at least 0.1 s. In free flight this would result in a yaw, bringing the animal back in line with the air stream. This torque reaction will stabilize the flight direction in the horizontal plane via a negative feedback mechanism, the hair fields above the lateral ocelli being the feedback receptors. In free flying locusts a torque on the vertical body axis can be generated by both the beating wings and the abdomen working as a rudder when bent to either side. The wings, however, are dominant in the reflex stabilization of the flight-course.     

Immune Response Suppression by an Inhibitor in Normal and Immune Mouse Serum

CONTROL mechanisms responsible for determining the intensity and duration of the immune response have been studied extensively. Jerne¹ and Uhr and Möller² described the phenomenon of feedback inhibition whereby the production of a 7S class of antibodies terminates the formation of antibodies with the same specificity. An immunosuppressive effect has also been observed in antigenic competition, in which the administration of one antigen results in a reduced response to a subsequently administered second antigen³. Recently, several investigations have focused on the mechanism of antigenic competition^4,5. A humoral rather than cellular mechanism is generally believed to be responsible for this phenomenon^4–6, but attempts to identify the humoral mediator have been unsuccessful. We have also searched for a humoral substance responsible for the immunosuppressive effect in antigenic competition and found in the sera of adult untreated mice an immunosuppressive agent whose concentration was substantially increased after antigenic stimulation.     

Efficacy of tags impregnated with pheromone and acaricide for control of Amblyomma variegatum

The efficacy of tags impregnated with pheromone and acaricide for control of Amblyomma variegatum on cattle in Guadeloupe was determined for a 13-week trial. Comparisons were made between untreated cattle and cattle with tags containing either pheromones alone (o-nitrophenol, methyl salicylate, 2,6-dichlorophenol and phenylacetaldehyde), pheromones plus acaricide (cyfluthrin or deltamethrin), or acaricide alone. Tags were fastened to cattle both on collars on the neck and with adhesive to tail hairs, with over 98 and 90% of tags retained, respectively, during the trial. By the end of the trial, tick infestations increased on untreated cattle (311.7%) and cattle with pheromone tags (154.8%) but decreased on cattle with pheromone/cyfluthrin (–45.0%), cyfluthrin (–42.8%), pheromone/deltamethrin (–68.7%) and deltamethrin tags (–87.6%). Cattle with pheromone tags had greater proportions of ticks on the hind regions (81%) compared to untreated cattle (62.5%) and on the front regions (18.2%) compared to untreated cattle (8.2%) indicating that ticks aggregated in response to pheromones. Analysis of hair samples by gas chromatography indicated that, within 2 days of placement, cyfluthrin spread rapidly over the body from the tags. Both cyfluthrin and deltamethrin were present in detectable levels on all eight body regions examined throughout the trial. Analysis of the tags indicated that they all still contained pheromone components after 13 weeks under field conditions.