Suspended silt and salinity tolerances of the first zoeal stage of the fiddler crab Uca annulipes (Decapoda: Brachyura) and why marine connectivity is essential to the survival of the species     

N Peer  NAF Miranda  R Perissinotto 《African Journal of Marine Science》2016,38(2):161-169

Fiddler crabs (Uca spp.) undergo the zoeal stage of development in open-ocean waters, where they experience stable salinity levels, low turbidity and reduced predation. The St Lucia estuarine system has undergone many geomorphological changes, both natural and anthropogenic, and the estuary mouth has been closed since the early 2000s. Despite recent attempts to improve marine connectivity, it remains limited, occurring primarily on the flood tide through channels connected to the adjacent Mfolozi River. Larval export from the St Lucia Estuary is therefore almost non-existent. A laboratory study was undertaken to examine the silt and salinity tolerance of Uca annulipes first stage zoeae, to investigate whether survival in the closed-estuary conditions would be possible. Salinity tolerance was narrow, with zoeae displaying 100% mortality at salinities <20 and >35 after five days. Zoeae were widely tolerant to silt loading and did not display a significant decrease in survival over a range of 0–1 000 NTU. A limited salinity tolerance is in accordance with the life-history strategy of fiddler crabs, and a high tolerance to turbid waters can be advantageous to small-bodied merozooplankton. Given the stenohaline nature of the zoeae, marine connectivity is therefore essential for the persistence of U. annulipes in this estuarine habitat.  相似文献   

Interannual variations of the air-sea carbon dioxide exchange in the different regions of the Pacific Ocean     

LI Yangchun  XU Yongfu 《海洋学报(英文版)》2013,32(3):71-79

Interannual variations of the air-sea CO 2 exchange from 1965 to 2000 in the Pacific Ocean are studied with a Pacific Ocean model.Two numerical experiments are performed,including the control run that is forced by climatological monthly mean physical data and the climate-change run that is forced by interannually varying monthly mean physical data.Climatological monthly winds are used in both runs to calculate the coefficient of air-sea CO 2 exchange.The analysis through the differences between the two runs shows that in the tropical Pacific the variation of export production induced by interannual variations of the physical fields is negatively correlated with that of the air-sea CO 2 flux,while there is no correlation or a weak positive correlation in the subtropical North and South Pacific.It indicates that the variation of the physical fields can modulate the variation of the air-sea CO 2 flux in converse ways in the tropical Pacific by changing the direct transport and biochemical process.Under the interannually varying monthly mean forcing,the simulated EOF1 of the air-sea CO 2 flux is basically consistent with that of sea surface temperature(SST) in the tropical Pacific,but contrary in the two subtropical Pacific Ocean.The correlation coefficient between the regionally integrated air-sea CO 2 flux and area-mean SST shows that when the air-sea CO 2 flux lags SST by about 5 months,the positive coefficient in the three regions is largest,indicating that in the tropical Pacific or on the longer time scale in the three regions,physical processes control the flux-SST relationship.  相似文献   

Riverine export of water,sediment and carbon during flood events in the arid to semi-arid Wuding River on the Chinese Loess Plateau     

Lishan Ran  Xiankun Yang  Mingyang Tian  Hongyan Shi  Shaoda Liu  Ruihong Yu  Yuanyuan Zhou 《地球表面变化过程与地形》2020,45(8):1777-1788

Floods have become increasingly important in fluvial export of water, sediment and carbon (C). Using high-frequency sampling, the export of water, sediment and C was examined in the Wuding River catchment on the Chinese Loess Plateau. With groundwater as an important contributor to runoff all year round, floods were relatively less important in the export of water. However, large floods were disproportionately important in exporting sediment and inorganic C (DIC) and organic C (DOC and POC). The three largest floods in each year transported 53.6–97.3 and 41.4–77% of the annual sediment and C fluxes, respectively. An extreme flood in 2017 alone contributed 94.6 and 73.1% of the annual sediment and C fluxes, respectively, in just 7 days, which included 20.3, 92.1 and 35.7% of the annual DOC, POC and DIC fluxes, respectively. A stable carbon isotope (δ¹³C) analysis of POC indicated that modern soils and C3 plants were its primary source. Furthermore, floods greatly accelerated CO₂ degassing due to elevated gas transfer velocity, although stream water CO₂ partial pressure (pCO₂) exhibited a decreasing trend with flow discharge. Although these results illustrated that increasing runoff diluted pCO₂, the timing and magnitude of floods were found to be critical in determining the response of pCO₂ to flow dynamics. Low-magnitude floods in the early wet season increased pCO₂ because of enhanced organic matter input, while subsequent large floods caused a lower pCO₂ due to greatly reduced organic matter supply. Finally, continuous monitoring of a complete flood event showed that the CO₂ efflux during the flood (2348 ± 664 mg C m^–2 day^–1) was three times that under low-flow conditions (808 ± 98 mg C m^–2 day^–1). Our study suggests that infrequent, heavy storm events, which are predicted to increase under climate change, will greatly alter the transport regimes of sediment and C. © 2020 John Wiley & Sons, Ltd.  相似文献   

河北省地震前兆观测数据备份与恢复     

王莉森  殷金平  张云昌 《地震地磁观测与研究》2017,39(1):159-165

河北省地震前兆数据库服务系统故障率升高,硬盘存储空间不足,特别是地震台站节点无备份数据库,服务器一旦崩溃必然造成地震台站节点数据库中数据丢失。本文通过Oracle数据库EXP与IMP工具提供的导出/导入功能,完成由省地震局数据库到地震台站节点（崩溃）数据库的数据恢复,形成一套定期备份并恢复数据的方案,用于河北省地震前兆观测数据备份与恢复。  相似文献