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This preliminary study investigated the interaction between ecological, environmental and genetic factors among two native vines, Cissus hypoglauca and Cissus sterculiifolia (family Vitaceae). Data from a number of fragmented populations within the Big Scrub and surrounding rainforest areas in northern NSW were used to investigate how closely related vines respond to habitat fragmentation. What has emerged is an account of two species occupying fairly distinct ecological niches, and consequently being differently affected by current environmental disturbances. Cissus hypoglauca appears to have greater ecological amplitude, including resilience to drier environmental conditions, while in the long term Cissus sterculiifolia is likely to be more extensively affected by rainforest degradation and fragmentation. Genetic analysis suggests that prior to extensive clearing the Big Scrub provided a continuum for gene flow across otherwise fairly disjunct rainforest areas. This pilot study illustrates how simple research can often support the development of long-term conservation and management strategies at the species and plant community level.
Using Australian Virtual Herbarium data to find all the woody rain forest plants in Australia
(2012)
Data bases that provide continental and global scale information about species distributions provide a valuable resource for environmental, ecological and evolutionary research. However to bring a large dataset to a standard that is suitable for quantitative analysis, data quality needed to be checked. Here we provide a worked example using a large dataset (c. 320,000 records) from Australia’s Virtual Herbarium (AVH) database, based on an initial data request for full distribution data for c. 2600 woody rain forest species known to occur in Australia. To reconcile inconsistencies around taxonomic identity prior to merging with our trait data-base, and resolve issues around spatial resolution and accuracy, we implemented extensive data filtering using a ‘cloud-based’ solution (Google Refine). This systematic process resulted in 1) the removal of close to 45% of the records originally downloaded, and 2) a clean and powerful data set based on herbarium backed distribution records for Australia’s woody rain forest species. Such resources can contribute significantly to improving research outcomes related to understanding Australia’s vegetation.