This study constructed the Early to Middle Permian paleoenvironrnent of southern high latitude by analyzing the stable isotope compositions of brachiopod shells from the Southern Sydney Basin and Tasmania , Australia. Ninety-two brachiopod and bivalve shells we collected from 7 formations (Sakmarian to Wordian) in Sydney Basin. Fossil brachiopods were collected from the Berriedale Limestone Formation (Artinskian) in Tasmania. All sample were thin sectioned and examined under the petrographic and cathodoluminescence microscopes for evaluating shell preservation. In addition, 20 brachiopod shells and 2 bivalve shells were selected to measure the element contents for further evaluation of shell preservation. A total of 638 isotopic analyses were performed. Only 401 isotopic analyses were determined micro-sampled from well preserved portions (non luminescent ; NL) to provide original environment signals. The average carbon isotope values of the NL brachiopod shells from these intervals are greater than 5‰, were comparable to those of eastern Pangea, but different from those of western Pangea. This comparability with eastern Pangea in carbon isotope records is interpreted to indicate similar oceanographic conditions and chemistry between southeastern Gondwana shelf water and that of eastern Pangea. The highest value of 7‰ at Lower Wandrawandian Siltstone (late Kungurian) indicate the possible presence of upwelling systems and thus increasing burial rate of organic matter. Difference in oxygen isotope values between high southern latitudes and low latitudes fluctuated during Early to Middle Permian. Mean oxygen isotope values of NL brachiopod shells were heavier than those of low latitudes in early Sakmarian (-0.3‰), early Late Artinskian (-1.1‰), late Kungurian (-1.0‰), Roadian (-0.2‰), and Wordian (-0.7‰); comparable to those of western Pangea in early Artinskian (-2.1‰) and early Kungurian (-2.5‰); and lighter than those of western Pangea in late Late Artinskian (-3.9‰). Assuming the oxygen isotope value was -1‰ for Permian seawater in southeast Australia, most of the calculated oxygen isotope temperatures (between 12°C and 16°C) reflected southeast Australia's high latitude cool temperature. However, the higher Upper Pebbly Beach Formation (29°C, late Late Artinskian), Berriedale Limestone (21°C, early Artinskian), Snapper Point Formation (22°C, early Kungurian) intervals were apparently relatively warmer, which may be attributed to a combination of warmer temperature and depleted seawater oxygen isotope composition in this region.