All Stories

  1. Climate Change Impact On Water Balance Components In Arctic River Basins
  2. Water Safety of the Steppe Crimea and the Possible Ways to Its Improvement
  3. Projected Changes in Water Balance Components of 11 Large River Basins during the 21st Century and Their Uncertainties
  4. Global Estimates of Changes in the Terrestrial Water Balance Components in the Context of Possible Climate Changes
  5. Scenario Projections of the Changes in Water Availability to Wheat Crops in the Steppe Crimea in the 21st Century and Some Measures Increasing the Efficiency of Its Cultivation
  6. Scenario Projections of Changes in Snow Water Equivalent Due to Possible Climate Changes in Different Regions of the Earth
  7. "Green farming" - a set of technologies of the future
  8. Scientific and human errors in a snow model intercomparison
  9. Snow cover duration trends observed at sites and predicted by multiple models
  10. Climate change impact on terrestrial water balance components at continental and global scales
  11. Does a comprehensive evaluation increase confidence in the hydrological model intended for climate impact assessment?
  12. Evolution of Agricultural Technologies: from “Gray” to “Green”
  13. Impact of Possible Climate Change on Extreme Annual Runoff from River Basins Located in Different Regions of the Globe
  14. Projecting Changes in Russian Northern River Runoff due to Possible Climate Change during the 21st Century: A Case Study of the Northern Dvina, Taz and Indigirka Rivers
  15. Scenario Forecasting of Changes in Water Balance Components in the Ob–Irtysh Basin in the Context of Possible Climate Change
  16. Inevitability and Prospects of the Use of the “Green Farming” Strategy by Humanity
  17. Physically Based Modeling of the Long-Term Dynamics of Water Balance and Snow Water Storage Components in the Ob–Irtysh River Basin
  18. Simulating of snow cover formation by the model of interaction between the land surface and the atmosphere (SWAP)
  19. Soil Mulching as an Important Element in the Strategy of Using Natural Water Resources in Agroecosystems of the Steppe Crimea
  20. ESM-SnowMIP: assessing snow models and quantifying snow-related climate feedbacks
  21. Application of the Land Surface Model SWAP and Global Climate Model INMCM4.0 for Projecting Runoff of Northern Russian Rivers. 1. Historical Simulations
  22. Application of the Land Surface Model SWAP and Global Climate Model INMCM4.0 for Projecting Runoff of Northern Russian Rivers. 2. Projections and Their Uncertainties
  23. Modelling Water Balance Components of River Basins Located in Different Regions of the Globe
  24. Climate change impact on streamflow in large-scale river basins: projections and their uncertainties sourced from GCMs and RCP scenarios
  25. Impact of possible climate changes on river runoff under different natural conditions
  26. Possible Climate Change Impact on River Runoff in the Different Regions of the Globe
  27. Modelling the impact of mulching the soil with plant remains on water regime formation, crop yield and energy costs in agricultural ecosystems
  28. Modeling Surface Runoff and Water Fluxes over Contrasted Soils in the Pastoral Sahel: Evaluation of the ALMIP2 Land Surface Models over the Gourma Region in Mali
  29. Streamflows over a West African Basin from the ALMIP2 Model Ensemble
  30. River runoff evaluation for ungauged watersheds by SWAP model. 2. Application of methods of physiographic similarity and spatial geostatistics
  31. Modelling river runoff and estimating its weather-related uncertainty
  32. Weather noise impact on the uncertainty of simulated water balance components of river basins
  33. Runoff evaluation for ungauged watersheds by SWAP model. 1. Application of artificial neural networks
  34. Scenario prediction of changes in water balance components in the Lena Basin in the context of possible climate changes
  35. Subgrid spatial variability of soil hydraulic functions for hydrological modelling
  36. Physically based modeling of many-year dynamics of daily streamflow and snow water equivalent in the Lena R. basin
  37. Physically based simulating long-term dynamics of diurnal variations of river runoff and snow water equivalent in the Kolyma River Basin
  38. Simulating the formation of river runoff and snow cover in the northern West Siberia
  39. Large-basin hydrological response to climate model outputs: uncertainty caused by internal atmospheric variability
  40. Ability of a land surface model to predict climate induced changes in northern Russian river runoff during the 21st century
  41. Scenario forecasting changes in the water balance components of the Olenek and Iindigirka river basins due to possible climate change
  42. Optimizing land surface parameters for simulating river runoff from 323 MOPEX-watersheds
  43. Scenario prediction of changes in water balance components of the Olenek and Indigirka rivers in the context of possible climate change in the region of the Republic of Sakha (Yakutia)
  44. Application of a technique for scenario prediction of climate change impact on the water balance components of northern river basins
  45. Modeling streamflow of the Olenek and Indigirka rivers using land surface model SWAP
  46. A technique for scenario prediction of changes in water balance components in northern river basins in the context of possible climate change
  47. Modeling river runoff in Northwestern Russia with the use of land surface model SWAP and global databases
  48. Northern Dvina runoff simulation using land-surface model SWAP and global databases
  49. Impact of uncertainties in meteorological forcing data and land surface parameters on global estimates of terrestrial water balance components
  50. Application of a land surface model for simulating rainfall streamflow hydrograph: 1. Model calibration
  51. Parameter Optimization for Simulating Runoff from Highlatitude River Basins Using Land Surface Model and Global Data Sets
  52. Reproduction of Pechora runoff hydrographs with the help of a model of heat and water exchange between the land surface and the atmosphere (SWAP)
  53. 10.1007/s11268-008-2005-7
  54. 10.1007/s11475-008-3006-x
  55. The AMMA Land Surface Model Intercomparison Project (ALMIP)
  56. Investigating the Ability of a Land Surface Model to Simulate Streamflow with the Accuracy of Hydrological Models: A Case Study Using MOPEX Materials
  57. Evaluation of forest snow processes models (SnowMIP2)
  58. Investigating the ability of a land surface model to reproduce river runoff with the accuracy of hydrological models
  59. Determination of soil hydrophysical characteristics in the Ivankovo Reservoir watershed
  60. The application of the land surface model for calculating river runoff in high latitudes
  61. Studying the effect of different approaches to estimating model parameters on the accuracy of river runoff simulation by SWAP model
  62. Technique for estimating the dynamics of water and carbon budgets of a coniferous forest ecosystem
  63. Modeling the components of heat and water balance for the land surface of the globe
  64. Model Parameter Estimation Experiment (MOPEX): An overview of science strategy and major results from the second and third workshops
  65. The simulation of runoff from small catchments in the permafrost zone by the SWAP model
  66. Challenges in Studying and Modeling Heat and Moisture Exchange in Soil–Vegetation/Snow Cover–Surface Air Layer Systems
  67. Validation of the energy budget of an alpine snowpack simulated by several snow models (Snow MIP project)
  68. The Rhône-Aggregation Land Surface Scheme Intercomparison Project: An Overview
  69. The simulation of heat and water exchange in the boreal spruce forest by the land-surface model SWAP
  70. Simulation of high latitude hydrological processes in the Torne–Kalix basin: PILPS Phase 2(e)
  71. Simulation of high-latitude hydrological processes in the Torne–Kalix basin: PILPS Phase 2(e)
  72. Effects of Frozen Soil on Soil Temperature, Spring Infiltration, and Runoff: Results from the PILPS 2(d) Experiment at Valdai, Russia
  73. The simulation of heat and water exchange at the land-atmosphere interface for the boreal grassland by the land-surface model SWAP
  74. The Representation of Snow in Land Surface Schemes: Results from PILPS 2(d)
  75. An experience of modelling heat and water exchange at the land surface on a large river basin scale
  76. Erratum
  77. The Project for Intercomparison of Land-surface Parameterization Schemes (PILPS) phase 2(c) Red–Arkansas River basin experiment:
  78. The Project for Intercomparison of Land-surface Parameterization Schemes (PILPS) Phase 2(c) Red–Arkansas River basin experiment:
  79. The Project for Intercomparison of Land-surface Parameterization Schemes (PILPS) phase 2(c) Red-Arkansas River basin experiment:
  80. The land surface parameterization scheme SWAP: description and partial validation
  81. Sensitivity of Latent Heat Flux from PILPS Land-Surface Schemes to Perturbations of Surface Air Temperature
  82. Modelling soil water dynamics and evapotranspiration for heterogeneous surfaces of the steppe and forest-steppe zones on a regional scale
  83. Modelling annual dynamics of soil water storage for agro- and natural ecosystems of the steppe and forest-steppe zones on a local scale
  84. Cabauw Experimental Results from the Project for Intercomparison of Land-Surface Parameterization Schemes