Your search keyword '"Kundu, Dipangkar"' showing total 8 results

1. Intercomparison of regional-scale hydrological models and climate change impacts projected for 12 large river basins worldwide-a synthesis

Author

Krysanova, Valentina, Vetter, Tobias, Eisner, Stephanie, Huang, Shaochun, Pechlivanidis, Ilias, Strauch, Michael, Gelfan, Alexander, Kumar, Rohini, Aich, Valentin, Arheimer, Berit, Chamorro, Alejandro, van Griensven, Ann, Kundu, Dipangkar, Lobanova, Anastasia, Mishra, Vimal, Plotner, Stefan, Reinhardt, Julia, Seidou, Ousmane, Wang, Xiaoyan, Wortmann, Michel, Zeng, Xiaofan, Hattermann, Fred F., Krysanova, Valentina, Vetter, Tobias, Eisner, Stephanie, Huang, Shaochun, Pechlivanidis, Ilias, Strauch, Michael, Gelfan, Alexander, Kumar, Rohini, Aich, Valentin, Arheimer, Berit, Chamorro, Alejandro, van Griensven, Ann, Kundu, Dipangkar, Lobanova, Anastasia, Mishra, Vimal, Plotner, Stefan, Reinhardt, Julia, Seidou, Ousmane, Wang, Xiaoyan, Wortmann, Michel, Zeng, Xiaofan, and Hattermann, Fred F.

Published

2017

2. Intercomparison of regional-scale hydrological models and climate change impacts projected for 12 large river basins worldwide-a synthesis

Author

Krysanova, Valentina, Vetter, Tobias, Eisner, Stephanie, Huang, Shaochun, Pechlivanidis, Ilias, Strauch, Michael, Gelfan, Alexander, Kumar, Rohini, Aich, Valentin, Arheimer, Berit, Chamorro, Alejandro, van Griensven, Ann, Kundu, Dipangkar, Lobanova, Anastasia, Mishra, Vimal, Plotner, Stefan, Reinhardt, Julia, Seidou, Ousmane, Wang, Xiaoyan, Wortmann, Michel, Zeng, Xiaofan, Hattermann, Fred F., Krysanova, Valentina, Vetter, Tobias, Eisner, Stephanie, Huang, Shaochun, Pechlivanidis, Ilias, Strauch, Michael, Gelfan, Alexander, Kumar, Rohini, Aich, Valentin, Arheimer, Berit, Chamorro, Alejandro, van Griensven, Ann, Kundu, Dipangkar, Lobanova, Anastasia, Mishra, Vimal, Plotner, Stefan, Reinhardt, Julia, Seidou, Ousmane, Wang, Xiaoyan, Wortmann, Michel, Zeng, Xiaofan, and Hattermann, Fred F.

Published

2017

3. Intercomparison of regional-scale hydrological models and climate change impacts projected for 12 large river basins worldwide - A synthesis

Author

Krysanova, Valentina, Vetter, Tobias, Eisner, Stephanie, Huang, Shaochun, Pechlivanidis, Ilias, Strauch, Michael, Gelfan, Alexander, Kumar, Rohini, Aich, Valentin, Arheimer, Berit, Chamorro, Alejandro, van Griensven, Ann, Kundu, Dipangkar, Lobanova, Anastasia, Mishra, Vimal, Plötner, Stefan, Reinhardt, Julia, Seidou, Ousmane, Wang, Xiaoyan, Wortmann, Michel, Zeng, Xiaofan, Hattermann, Fred F., Krysanova, Valentina, Vetter, Tobias, Eisner, Stephanie, Huang, Shaochun, Pechlivanidis, Ilias, Strauch, Michael, Gelfan, Alexander, Kumar, Rohini, Aich, Valentin, Arheimer, Berit, Chamorro, Alejandro, van Griensven, Ann, Kundu, Dipangkar, Lobanova, Anastasia, Mishra, Vimal, Plötner, Stefan, Reinhardt, Julia, Seidou, Ousmane, Wang, Xiaoyan, Wortmann, Michel, Zeng, Xiaofan, and Hattermann, Fred F.

Abstract

An intercomparison of climate change impacts projected by nine regional-scale hydrological models for 12 large river basins on all continents was performed, and sources of uncertainty were quantified in the framework of the ISIMIP project. The models ECOMAG, HBV, HYMOD, HYPE, mHM, SWAT, SWIM, VIC and WaterGAP3 were applied in the following basins: Rhine and Tagus in Europe, Niger and Blue Nile in Africa, Ganges, Lena, Upper Yellow and Upper Yangtze in Asia, Upper Mississippi, MacKenzie and Upper Amazon in America, and Darling in Australia. The model calibration and validation was done using WATCH climate data for the period 1971-2000. The results, evaluated with 14 criteria, are mostly satisfactory, except for the low flow. Climate change impacts were analyzed using projections from five global climate models under four representative concentration pathways. Trends in the period 2070-2099 in relation to the reference period 1975-2004 were evaluated for three variables: the long-term mean annual flow and high and low flow percentiles Q 10 and Q 90, as well as for flows in three months high- and low-flow periods denoted as HF and LF. For three river basins: the Lena, MacKenzie and Tagus strong trends in all five variables were found (except for Q 10 in the MacKenzie); trends with moderate certainty for three to five variables were confirmed for the Rhine, Ganges and Upper Mississippi; and increases in HF and LF were found for the Upper Amazon, Upper Yangtze and Upper Yellow. The analysis of projected streamflow seasonality demonstrated increasing streamflow volumes during the high-flow period in four basins influenced by monsoonal precipitation (Ganges, Upper Amazon, Upper Yangtze and Upper Yellow), an amplification of the snowmelt flood peaks in the Lena and MacKenzie, and a substantial decrease of discharge in the Tagus (all months). The overall average fractions of uncertainty for the annual mean flow projections in the multi-model ensemble applied for all basins w

Published

2017

4. A comparison of changes in river runoff from multiple global and catchment-scale hydrological models under global warming scenarios of 1 °C, 2 °C and 3 °C

Author

Gosling, Simon N., Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred F., Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Jungou, van Griensven, Ann, Veldkamp, Ted I.E., Vetter, Tobias, Wang, Xiaoyan, Zhang, Xinxin, Gosling, Simon N., Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred F., Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Jungou, van Griensven, Ann, Veldkamp, Ted I.E., Vetter, Tobias, Wang, Xiaoyan, and Zhang, Xinxin

Abstract

We present one of the first climate change impact assessments on river runoff that utilises an ensemble of global hydrological models (Glob-HMs) and an ensemble of catchment-scale hydrological models (Cat-HMs), across multiple catchments: the upper Amazon, Darling, Ganges, Lena, upper Mississippi, upper Niger, Rhine and Tagus. Relative changes in simulated mean annual runoff (MAR) and four indicators of high and low extreme flows are compared between the two ensembles. The ensemble median values of changes in runoff with three different scenarios of global-mean warming (1, 2 and 3 °C above pre-industrial levels) are generally similar between the two ensembles, although the ensemble spread is often larger for the Glob-HM ensemble. In addition the ensemble spread is normally larger than the difference between the two ensemble medians. Whilst we find compelling evidence for projected runoff changes for the Rhine (decrease), Tagus (decrease) and Lena (increase) with global warming, the sign and magnitude of change for the other catchments is unclear. Our model results highlight that for these three catchments in particular, global climate change mitigation, which limits global-mean temperature rise to below 2 °C above preindustrial levels, could avoid some of the hydrological hazards that could be seen with higher magnitudes of global warming. © 2016 The Author(s)

Published

2017

5. A comparison of changes in river runoff from multiple global and catchment-scale hydrological models under global warming scenarios of 1°C, 2°C and 3°C

Author

Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, Zhang, Xinxin, Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, and Zhang, Xinxin

Abstract

We present one of the first climate change impact assessments on river runoff that utilises an ensemble of global hydrological models (Glob-HMs) and an ensemble of catchment-scale hydrological models (Cat-HMs), across multiple catchments: the upper Amazon, Darling, Ganges, Lena, upper Mississippi, upper Niger, Rhine and Tagus. Relative changes in simulated mean annual runoff (MAR) and four indicators of high and low extreme flows are compared between the two ensembles. The ensemble median values of changes in runoff with three different scenarios of global-mean warming (1°C, 2°C and 3°C above pre-industrial levels) are generally similar between the two ensembles, although the ensemble spread is often larger for the Glob-HM ensemble. In addition the ensemble spread is normally larger than the difference between the two ensemble medians. Whilst we find compelling evidence for projected runoff changes for the Rhine (decrease), Tagus (decrease) and Lena (increase) with global warming, the sign and magnitude of change for the other catchments is unclear. Our model results highlight that for these three catchments in particular, global climate change mitigation, which limits global-mean temperature rise to below 2°C above pre-industrial levels, could avoid some of the hydrological hazards that could be seen with higher magnitudes of global warming.

6. A comparison of changes in river runoff from multiple global and catchment-scale hydrological models under global warming scenarios of 1°C, 2°C and 3°C

Author

Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, Zhang, Xinxin, Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, and Zhang, Xinxin

Abstract

We present one of the first climate change impact assessments on river runoff that utilises an ensemble of global hydrological models (Glob-HMs) and an ensemble of catchment-scale hydrological models (Cat-HMs), across multiple catchments: the upper Amazon, Darling, Ganges, Lena, upper Mississippi, upper Niger, Rhine and Tagus. Relative changes in simulated mean annual runoff (MAR) and four indicators of high and low extreme flows are compared between the two ensembles. The ensemble median values of changes in runoff with three different scenarios of global-mean warming (1°C, 2°C and 3°C above pre-industrial levels) are generally similar between the two ensembles, although the ensemble spread is often larger for the Glob-HM ensemble. In addition the ensemble spread is normally larger than the difference between the two ensemble medians. Whilst we find compelling evidence for projected runoff changes for the Rhine (decrease), Tagus (decrease) and Lena (increase) with global warming, the sign and magnitude of change for the other catchments is unclear. Our model results highlight that for these three catchments in particular, global climate change mitigation, which limits global-mean temperature rise to below 2°C above pre-industrial levels, could avoid some of the hydrological hazards that could be seen with higher magnitudes of global warming.

7. A comparison of changes in river runoff from multiple global and catchment-scale hydrological models under global warming scenarios of 1°C, 2°C and 3°C

Author

Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, Zhang, Xinxin, Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, and Zhang, Xinxin

Abstract

We present one of the first climate change impact assessments on river runoff that utilises an ensemble of global hydrological models (Glob-HMs) and an ensemble of catchment-scale hydrological models (Cat-HMs), across multiple catchments: the upper Amazon, Darling, Ganges, Lena, upper Mississippi, upper Niger, Rhine and Tagus. Relative changes in simulated mean annual runoff (MAR) and four indicators of high and low extreme flows are compared between the two ensembles. The ensemble median values of changes in runoff with three different scenarios of global-mean warming (1°C, 2°C and 3°C above pre-industrial levels) are generally similar between the two ensembles, although the ensemble spread is often larger for the Glob-HM ensemble. In addition the ensemble spread is normally larger than the difference between the two ensemble medians. Whilst we find compelling evidence for projected runoff changes for the Rhine (decrease), Tagus (decrease) and Lena (increase) with global warming, the sign and magnitude of change for the other catchments is unclear. Our model results highlight that for these three catchments in particular, global climate change mitigation, which limits global-mean temperature rise to below 2°C above pre-industrial levels, could avoid some of the hydrological hazards that could be seen with higher magnitudes of global warming.

8. A comparison of changes in river runoff from multiple global and catchment-scale hydrological models under global warming scenarios of 1°C, 2°C and 3°C

Author

Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, Zhang, Xinxin, Gosling, Simon, Zaherpour, Jamal, Mount, Nick J., Hattermann, Fred, Dankers, Rutger, Arheimer, Berit, Breuer, Lutz, Ding, Jie, Haddeland, Ingjerd, Kumar, Rohini, Kundu, Dipangkar, Liu, Junguo, van Griensven, Ann, Veldkamp, Ted, Vetter, Tobias, Wang, Xiaoyan, and Zhang, Xinxin

Abstract

We present one of the first climate change impact assessments on river runoff that utilises an ensemble of global hydrological models (Glob-HMs) and an ensemble of catchment-scale hydrological models (Cat-HMs), across multiple catchments: the upper Amazon, Darling, Ganges, Lena, upper Mississippi, upper Niger, Rhine and Tagus. Relative changes in simulated mean annual runoff (MAR) and four indicators of high and low extreme flows are compared between the two ensembles. The ensemble median values of changes in runoff with three different scenarios of global-mean warming (1°C, 2°C and 3°C above pre-industrial levels) are generally similar between the two ensembles, although the ensemble spread is often larger for the Glob-HM ensemble. In addition the ensemble spread is normally larger than the difference between the two ensemble medians. Whilst we find compelling evidence for projected runoff changes for the Rhine (decrease), Tagus (decrease) and Lena (increase) with global warming, the sign and magnitude of change for the other catchments is unclear. Our model results highlight that for these three catchments in particular, global climate change mitigation, which limits global-mean temperature rise to below 2°C above pre-industrial levels, could avoid some of the hydrological hazards that could be seen with higher magnitudes of global warming.