Description:
Question: What is the effect of frequent low intensity prescribed fire on foliar nutrients and insect herbivory in an Australian eucalypt forest? Location: Lorne State Forest (Bulls Ground Frequent Burning Study), mid-north coast, New South Wales, Australia. Methods: Eighteen independent sites were studied representing three experimental fire regimes: fire exclusion (at least 45 years), frequently burnt (every 3 years for 35 years) and fire exclusion followed by the recent introduction of frequent burning (two fires in 6 years). Mature leaves were collected from the canopy of Eucalyptus pilularis trees at each site and analysed for nutrients and damage by invertebrate herbivores. Results: Almost 75% of all leaves showed some signs of leaf damage. The frequency of past fires had no effect on carbon and nitrogen content of canopy leaves. These results were consistent with assessments of herbivore damage where no significant differences were found in the amount of invertebrate herbivory damage to leaves across fire treatments. Conclusions: This eucalypt forest displayed a high degree of resilience to both frequent burning and fire exclusion as determined by foliar nutrients and damage by insect herbivores. Fire frequency had no detectable ecological impact on this aspect of forest health.
Description:
AimsThe effects of pastoralism on grassy vegetation are predicted to vary across spatial scales. However, local-scale effects have generally been better considered than large-scale effects that may be pertinent for plant diversity conservation. We examined variation in plant diversity in an agricultural region by comparing patterns observed at large and local scales for different land uses. We tested whether habitat specificity (which relates to how specific different species are to particular land uses) can indicate the importance of land uses to plant diversity conservation. MethodsWe surveyed 127 quadrats of grassy vegetation across four land uses: previously cultivated and never-cultivated native pastures, grazed woodland and ungrazed woodlands (grazing refugia). We assessed (1) species density at the quadrat scale, (2) correlations among explanatory variables and species composition using ordination techniques, and (3) habitat specificity at the regional scale using the -diversity contribution index. ResultsAt the quadrat scale, differences in species density among land uses were not pronounced. In contrast, habitat specificity was highest in ungrazed, unfertilized woodlands. Land uses that were grazed, cleared of trees and fertilized were generally species dense at the quadrat scale (>40 species 400m(-2)), but were comprised of a limited suite of native and exotic grasses and forbs, with relatively homogeneous composition across the region. ConclusionsIn the region studied, grazing refugia with no tree clearing or history of fertilizer application were valuable for conserving a large number of native species, and so should be protected. Such land uses are currently rare in the region. Simple measures of native or total species density were insufficient for evaluating conservation value, as they did not distinguish habitats with large numbers of common, generalist native species from those with species that were rare or restricted in the region. Analyses of habitat specificity may potentially overcome the pitfalls of basing conservation management decisions on local-scale measures. Our results also highlighted a need to understand the processes associated with management practices that serve to reduce species diversity at landscape and regional scales.