Changes in streamflow components following logging and regeneration in the southern forest of Western Australia

Two small experimental catchments were established in the south-west of Western Australia to study the effects of logging and subsequent regeneration on the mechanism of streamflow generation. Following a six year pre-treatment calibration period (1976–1981), one catchment (March Road) was logged and reforested in 1982 and the other (April Road South) remained as a control. Logging resulted in an increase in groundwater levels and subsequently groundwater discharge area. The deep, permanent groundwater levels in the valley and upslope areas rose until 1986 and then began to decline. The maximum rise was 5 m in the upslope areas. The duration of shallow, intermittent groundwater system, perched on underlying clay, was extended from 2–3 months in winter before logging to 5–6 months after logging. The shallow groundwater level rose in the valley and began to discharge at the ground surface in 1986. Logging resulted in an increase in streamflow. The maximum increase (≈18% of annual rainfall) was in 1983, one year after logging. The increase in streamflow was due to a substantial decrease in interception and evapotranspiration, increased recharge to the shallow groundwater system, decreased soil moisture deficit and consequently an increase in throughflow. The increase in base flow was about twice that of quick flow. The changes in streamflow and its components in the subsequent years were closely related to the groundwater discharge area. Most of the quick flow was generated as saturation excess overland flow from the groundwater discharge area in the valley. The expansion of the groundwater discharge area, increased soil moisture content, higher groundwater level and the presence of the shallow groundwater system for the extended periods were responsible for the process of streamflow generation.     

硝酸钠改良半咸水凡纳滨对虾(Litopenaeus vannamei)池塘底质和水质的研究

采用在8口土池开展半咸水养殖凡纳滨对虾施用NaNO3对比实验的方法,进行了硝酸钠对半咸水对虾养殖池塘底质和水质的改良效果、机理及应用前景的研究。结果表明,NaNO3处理组显著提高了池塘底泥表层的氧化还原电位,显著降低了底泥的BOD5和可利用磷的浓度;显著降低了池塘水中的蓝藻相对密度;处理组的养殖成活率、产量和饲料系数分别比对照组显著提高8.2%、10.1%和降低9.2%(P<0.05);处理组养殖效益明显高于对照组,每公顷池塘养虾净增加收入人民币9765元;NaNO3的施用起到了有效改良池塘底质和水质的作用。因此,NaNO3的应用可为半咸水对虾养殖池塘底质和水质的改良开辟一个新的途径,具有一定的应用前景。