Vegetation history and salinity gradient during the last 3700?years in Pichavaram estuary, India     

JYOTI SRIVASTAVA  ANJUM FAROOQUI  S M HUSSAIN 《Journal of Earth System Science》2012,121(5):1229-1237

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Evaluation of SWAT Model performance on glaciated and non-glaciated subbasins of Nam Co Lake,Southern Tibetan Plateau,China     

Muhammad ADNAN  KANG Shi-chang  ZHANG Guo-shuai  Muhammad Naveed ANJUM  Muhammad ZAMAN  ZHANG Yu-qing 《山地科学学报》2019,(5)

This paper presents an assessment of the Soil and Water Assessment Tool(SWAT) on a glaciated(Qugaqie) and a non-glaciated(Niyaqu) subbasin of the Nam Co Lake. The Nam Co Lake is located in the southern Tibetan Plateau, two subbasins having catchment areas of 59 km~2 and 388 km~2, respectively. The scores of examined evaluation indices(i.e., R~2, NSE, and PBIAS) established that the performance of the SWAT model was better on the monthly scale compared to the daily scale. The respective monthly values of R~2, NSE, and PBIAS were 0.94, 0.97, and 0.50 for the calibration period while 0.92, 0.88, and -8.80 for the validation period. Glacier melt contribution in the study domain was simulated by using the SWAT model in conjunction with the Degree Day Melt(DDM) approach. The conjunction of DDM with the SWAT Model ensued improved results during both calibration(R~2=0.96, NSE=0.95, and PBIAS=-13.49) and validation (R~2=0.97, NSE=0.96, and PBIAS=-2.87) periods on the monthly time scale. Average contribution(in percentage) of water balance components to the total streamflow of Niyaqu and Qugaqie subbasins was evaluated. We found that the major portion(99.45%) of the streamflow in the Niyaqu subbasin was generated by snowmelt or rainfall surface runoff(SURF_Q), followed by groundwater(GW_Q, 0.47%), and lateral(LAT_Q, 0.06%) flows. Conversely, in the Qugaqie subbasin, major contributor to the streamflow(79.63%) was glacier melt(GLC_Q), followed by SURF_Q(20.14%), GW_Q(0.13%), and LAT_Q(0.089%). The contribution of GLC_Q was the highest(86.79%) in July and lowest(69.95%) in September. This study concludes that the performance of the SWAT model in glaciated catchment is weak without considering glacier component in modeling; however, it performs reasonably well in non-glaciated catchment. Furthermore, the temperature index approach with elevation bands is viable in those catchments where streamflows are driven by snowmelt. Therefore, it is recommended to use the SWAT Model in conjunction with DDM or energy base model to simulate the glacier melt contribution to the total streamflow. This study might be helpful in quantification and better management of water resources in data scarce glaciated regions.  相似文献   

A STUDY OF RAINFALLS RECORDED AT THE CHERRAPUNJI OBSERVATORY     

O. N. DHAR  S. M.T. FAROOQUI 《水文科学杂志》2013,58(4):441-450

ABSTRACT

The maximum rainfalls recorded at the Cherrapunji Observatory raingauge during various periods within the 57 years from 1903 to 1959 have been studied and the equation of the enveloping line has found to be R = 49 D^0.485 where R is the rainfall in inches and D is duration in days. One-day maximum rainfalls for different periods from two to 100 years have also been worked out and the 100-year value has been found to be 2.1 times the 2-year value. The daily probable maximum precipitation (PMP), estimated by the Hershfield technique, is 78 in. A study of annual and monsoon rainfalls did not show any general linear trend but there was a gradual increase in amounts from 1944 to 1954.  相似文献