All Stories

  1. Representing Preferential Flow through Variably-Saturated Soils with Surface Ponding in a Large-Scale Land Surface Model over the Conterminous US
  2. Exploring the Origin of the Two-Week Predictability Limit: A Revisit of Lorenz’s Predictability Studies in the 1960s
  3. Vientos—A New Satellite Mission Concept for 3D Wind Measurements by Combining Passive Water Vapor Sounders with Doppler Wind Lidar
  4. Power Spectra and Diurnal Variation of Low‐Level Horizontal Winds Observed by a Wind Profiler Radar Network Over China
  5. From California’s Extreme Drought to Major Flooding: Evaluating and Synthesizing Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23
  6. Possible self-regulation of Northern Hemisphere mid-tropospheric temperatures and its connection to upper-level winds in reanalyses and Earth system models
  7. Linking lidar multiple scattering profiles to snow depth and snow density: an analytical radiative transfer analysis and the implications for remote sensing of snow
  8. The 50th Anniversary of the Metaphorical Butterfly Effect since Lorenz (1972): Multistability, Multiscale Predictability, and Sensitivity in Numerical Models
  9. Remote effects of Tibetan Plateau spring land temperature on global subseasonal to seasonal precipitation prediction and comparison with effects of sea surface temperature: the GEWEX/LS4P Phase I experiment
  10. Spatially coordinated airborne data and complementary products for aerosol, gas, cloud, and meteorological studies: the NASA ACTIVATE dataset
  11. Scale‐Dependent Estimability of Turbulent Flux in the Unstable Surface Layer for Land Surface Modeling
  12. Seasonal Forecasting of Precipitation, Temperature, and Snow Mass over the Western United States by Combining Ensemble Postprocessing with Empirical Ocean–Atmosphere Teleconnections
  13. Lorenz’s View on the Predictability Limit of the Atmosphere
  14. Reflections and Thoughts on the Future of Science From AGU Hydrology Section Fellows
  15. Laser light propagation in a turbid medium: solution including multiple scattering effects
  16. Wintertime Synoptic Patterns of Midlatitude Boundary Layer Clouds Over the Western North Atlantic: Climatology and Insights From In Situ ACTIVATE Observations
  17. Global Three‐Dimensional Water Vapor Feature‐Tracking for Horizontal Winds Using Hyperspectral Infrared Sounder Data From Overlapped Tracks of Two Satellites
  18. Tropical mesoscale convective system formation environments
  19. Large-Eddy Simulations of Marine Boundary-Layer Clouds Associated with Cold-Air Outbreaks During the ACTIVATE Campaign. Part II: Aerosol–Meteorology–Cloud Interaction
  20. The First 30 Years of GEWEX
  21. A Surface Flux Estimation Scheme Accounting for Large‐Eddy Effects for Land Surface Modeling
  22. Spring Land Temperature in Tibetan Plateau and Global-Scale Summer Precipitation: Initialization and Improved Prediction
  23. The DOE E3SM Model Version 2: Overview of the Physical Model and Initial Model Evaluation
  24. The Dual Nature of Chaos and Order in the Atmosphere
  25. A novel approach to solve forward/inverse problems in remote sensing applications
  26. The Effect of Surface Heating Heterogeneity on Boundary Layer Height and Its Dependence on Background Wind Speed
  27. Advances in Subseasonal to Seasonal Prediction Relevant to Water Management in the Western United States
  28. Aircraft Observations of Turbulence in Cloudy and Cloud‐Free Boundary Layers Over the Western North Atlantic Ocean From ACTIVATE and Implications for the Earth System Model Evaluation and Development
  29. Precipitation over the U.S. Coastal Land/Water Using Gauge-Corrected Multi-Radar/Multi-Sensor System and Three Satellite Products
  30. Three Kinds of Butterfly Effects within Lorenz Models
  31. Re‐Evaluation of Low Cloud Amount Relationships With Lower‐Tropospheric Stability and Estimated Inversion Strength
  32. One Saddle Point and Two Types of Sensitivities within the Lorenz 1963 and 1969 Models
  33. The Control of Plant and Soil Hydraulics on the Interannual Variability of Plant Carbon Uptake Over the Central US
  34. Deriving Snow Depth From ICESat-2 Lidar Multiple Scattering Measurements: Uncertainty Analyses
  35. CondiDiag1.0: a flexible online diagnostic tool for conditional sampling and budget analysis in the E3SM atmosphere model (EAM)
  36. Ocean Surface Flux Algorithm Effects on Tropical Indo‐Pacific Intraseasonal Precipitation
  37. Deriving Snow Depth From ICESat-2 Lidar Multiple Scattering Measurements
  38. Better calibration of cloud parameterizations and subgrid effects increases the fidelity of the E3SM Atmosphere Model version 1
  39. Exploring the Potential of Long Short‐Term Memory Networks for Improving Understanding of Continental‐ and Regional‐Scale Snowpack Dynamic
  40. Improving the Estimate of Summer Daytime Planetary Boundary Layer Height Over Land From GPS Radio Occultation Data
  41. The feedback of Arizona Grassland to Longer Seasonal Droughts and its Implication for Dryland Carbon Cycling: Insights from Model-Experiment Integration
  42. The Compensatory CO 2 Fertilization and Stomatal Closure Effects on Runoff Projection From 2016–2099 in the Western United States
  43. Two-Stage Artificial Intelligence Algorithm for Calculating Moisture-Tracking Atmospheric Motion Vectors
  44. On Assessing ERA5 and MERRA2 Representations of Cold‐Air Outbreaks Across the Gulf Stream
  45. Attribution of Snowpack Errors to Simulated Temperature and Precipitation in E3SMv1 Over the Contiguous United States
  46. Exploring the Potential of Long Short-Term Memory Networks for Improving Understanding of Continental- and Regional-Scale Snowpack Dynamics
  47. Characteristics and Causes of Extreme Snowmelt over the Conterminous United States
  48. Exploring the Potential of Long Short-Term Memory Networks for Improving Understanding of Continental- and Regional-Scale Snowpack Dynamics
  49. Impact of Initialized Land Surface Temperature and Snowpack on Subseasonal to Seasonal Prediction Project, Phase I (LS4P-I): organization and experimental design
  50. Cloud drop number concentrations over the western North Atlantic Ocean: seasonal cycle, aerosol interrelationships, and other influential factors
  51. Quantifying the Occurrence of Record Hot Years Through Normalized Warming Trends
  52. Ocean Surface Flux Algorithm Effects on Earth System Model Energy and Water Cycles
  53. Quantifying and attributing time step sensitivities in present-day climate simulations conducted with EAMv1
  54. Implementation of Snowpack Treatment in the CPC Water Balance Model and Its Impact on Drought Assessment
  55. An Overview of Atmospheric Features Over the Western North Atlantic Ocean and North American East Coast—Part 2: Circulation, Boundary Layer, and Clouds
  56. Understanding water and energy fluxes in the Amazonia: Lessons from an observation‐model intercomparison
  57. Observing System Simulation Experiments Today and Tomorrow
  58. The Amazon Water Cycle: Perspectives from Water Budget Closure and Ocean Salinity
  59. Is Weather Chaotic?: Coexistence of Chaos and Order within a Generalized Lorenz Model
  60. Final Report of our DOE Project entitled "Improving the interface processes in the DOE/ACME model"
  61. Why are there more summer afternoon low clouds over the Tibetan Plateau compared to eastern China?
  62. Highly sampled measurements in a controlled atmosphere at the Biosphere 2 Landscape Evolution Observatory
  63. Improving time‐step convergence in an atmosphere model with simplified physics: the impacts of closure assumption and process coupling
  64. Climate sensitivity to decadal land cover and land use change across the conterminous United States
  65. Enhancing the Noah‐MP Ecosystem Response to Droughts with an Explicit Representation of Plant Water Storage Supplied by Dynamic Root Water Uptake
  66. A Hybrid Model for Lake Powell Inflow Prediction
  67. Use of Observing System Simulation Experiments in the United States
  68. Evaluating the Preconditions of Two Remote Sensing SWE Retrieval Algorithms over the US
  69. Increased Likelihood of Appreciable Afternoon Rainfall Over Wetter or Drier Soils Dependent Upon Atmospheric Dynamic Influence
  70. The Hurricane Harvey (2017) Texas Rainstorm: Synoptic Analysis and Sensitivity to Soil Moisture
  71. Stratocumulus cloud clearings: statistics from satellites, reanalysis models, and airborne measurements
  72. Atmospheric Research Over the Western North Atlantic Ocean Region and North American East Coast: A Review of Past Work and Challenges Ahead
  73. Stratocumulus Cloud Clearings: Statistics from Satellites, Reanalysis Models, and Airborne Measurements
  74. Supplementary material to "Stratocumulus Cloud Clearings: Statistics from Satellites, Reanalysis Models, and Airborne Measurements"
  75. A Wet‐Bulb Temperature‐Based Rain‐Snow Partitioning Scheme Improves Snowpack Prediction Over the Drier Western United States
  76. The Community Land Model Version 5: Description of New Features, Benchmarking, and Impact of Forcing Uncertainty
  77. Subtropical Marine Low Stratiform Cloud Deck Spatial Errors in the E3SMv1 Atmosphere Model
  78. Further Improvement of Surface Flux Estimation in the Unstable Surface Layer Based on Large‐Eddy Simulation Data
  79. Aerosol–Cloud–Meteorology Interaction Airborne Field Investigations: Using Lessons Learned from the U.S. West Coast in the Design of ACTIVATE off the U.S. East Coast
  80. Ocean Barrier Layers in the Energy Exascale Earth System Model
  81. The DOE E3SM Coupled Model Version 1: Overview and Evaluation at Standard Resolution
  82. The Intraseasonal and Interannual Variability of Arctic Temperature and Specific Humidity Inversions
  83. Seasonal Prediction of North Atlantic Accumulated Cyclone Energy and Major Hurricane Activity
  84. Hillslope Hydrology in Global Change Research and Earth System Modeling
  85. Thriving on Our Changing Planet
  86. Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review
  87. Snowpack Change From 1982 to 2016 Over Conterminous United States
  88. Evaluation of the atmosphere–land–ocean–sea ice interface processes in the Regional Arctic System Model version 1 (RASM1) using local and globally gridded observations
  89. Evaluation of Remotely Sensed Snow Water Equivalent and Snow Cover Extent over the Contiguous United States
  90. Evaluation of SMAP Soil Moisture Relative to Five Other Satellite Products Using the Climate Reference Network Measurements Over USA
  91. Assessing the performance of a physically-based soil moisture module integrated within the Soil and Water Assessment Tool
  92. Large and local-scale features associated with heat waves in the United States in reanalysis products and the NARCCAP model ensemble
  93. Controlled Experiments of Hillslope Coevolution at the Biosphere 2 Landscape Evolution Observatory: Toward Prediction of Coupled Hydrological, Biogeochemical, and Ecological Change
  94. Does Soil Moisture Affect Warm Season Precipitation Over the Southern Great Plains?
  95. Future Community Efforts in Understanding and Modeling Atmospheric Processes
  96. The Impact of a Low Bias in Snow Water Equivalent Initialization on CFS Seasonal Forecasts
  97. A Hydrometeorological Perspective on the Karakoram Anomaly Using Unique Valley-Based Synoptic Weather Observations
  98. Impacts of internal climate variability on meteorological drought changes in China
  99. Development of the Regional Arctic System Model (RASM): Near-Surface Atmospheric Climate Sensitivity
  100. Evaluation of Greenland near surface air temperature datasets
  101. Impact of Irrigation over the California Central Valley on Regional Climate
  102. Relationships between giant sea salt particles and clouds inferred from aircraft physicochemical data
  103. Advancing Understanding of Hydrological and Biogeochemical Interactions in Evolving Landscapes through Controlled Experimentation at the Landscape Evolution Observatory
  104. CO2diffusion into pore spaces limits weathering rate of an experimental basalt landscape
  105. Evaluation of Greenland near surface air temperature datasets
  106. Supplementary material to "Evaluation of Greenland near surface air temperature datasets"
  107. A New Snow Density Parameterization for Land Data Initialization
  108. Influence of dynamic vegetation on carbon-nitrogen cycle feedback in the Community Land Model (CLM4)
  109. Why Do Global Reanalyses and Land Data Assimilation Products Underestimate Snow Water Equivalent?
  110. Global warming projection in the 21st century based on an observational data-driven model
  111. Development of a 0.5° global monthly raining day product from 1901 to 2010
  112. Land Surface Climate in the Regional Arctic System Model
  113. Estimates of Global Surface Hydrology and Heat Fluxes from the Community Land Model (CLM4.5) with Four Atmospheric Forcing Datasets
  114. Do dynamic global vegetation models capture the seasonality of carbon fluxes in the Amazon basin? A data-model intercomparison
  115. Urban Effects on Regional Climate: A Case Study in the Phoenix and Tucson “Sun Corridor”
  116. Coupled Evaluation of Below- and Aboveground Energy and Water Cycle Variables from Reanalysis Products over Five Flux Tower Sites in the United States
  117. Challenges and Opportunities in NASA Weather Research
  118. Potential impacts of the continuing urbanization on regional climate
  119. Linking snowfall and snow accumulation to generate spatial maps of SWE and snow depth
  120. An Evaluation of Snow Initializations in NCEP Global and Regional Forecasting Models
  121. Implementing and Evaluating Variable Soil Thickness in the Community Land Model, Version 4.5 (CLM4.5)
  122. Stratocumulus Cloud Clearings and Notable Thermodynamic and Aerosol Contrasts across the Clear–Cloudy Interface
  123. Testing the hybrid-3-D hillslope hydrological model in a controlled environment
  124. A gridded global data set of soil, intact regolith, and sedimentary deposit thicknesses for regional and global land surface modeling
  125. Evaluation of 22 Precipitation and 23 Soil Moisture Products over a Semiarid Area in Southeastern Arizona
  126. A hybrid‐3D hillslope hydrological model for use in E arth system models
  127. The Landscape Evolution Observatory: A large-scale controllable infrastructure to study coupled Earth-surface processes
  128. Improving the representation of hydrologic processes in Earth System Models
  129. Quantitative characterization of spurious numerical oscillations in 48 CMIP5 models
  130. A New Statistical Model for Predicting Seasonal North Atlantic Hurricane Activity
  131. A climatology of tropospheric humidity inversions in five reanalyses
  132. Global hourly land surface air temperature datasets: inter-comparison and climate change
  133. Impacts of modified Richards equation on RegCM4 regional climate modeling over East Asia
  134. Translating aboveground cosmic-ray neutron intensity to high-frequency soil moisture profiles at sub-kilometer scale
  135. Hillslope-scale experiment demonstrates the role of convergence during two-step saturation
  136. Differences in carbon cycle and temperature projections from emission- and concentration-driven earth system model simulations
  137. A MODIS-Based Global 1-km Maximum Green Vegetation Fraction Dataset
  138. Summer Soil Moisture Spatiotemporal Variability in Southeastern Arizona
  139. A Global Land Cover Climatology Using MODIS Data
  140. Mechanisms of water supply and vegetation demand govern the seasonality and magnitude of evapotranspiration in Amazonia and Cerrado
  141. Assimilation of near-surface cosmic-ray neutrons improves summertime soil moisture profile estimates at three distinct biomes in the USA
  142. Incipient subsurface heterogeneity and its effect on overland flow generation – insight from a modeling study of the first experiment at the Biosphere 2 Landscape Evolution Observatory
  143. Range of monthly mean hourly land surface air temperature diurnal cycle over high northern latitudes
  144. Comparison of land skin temperature from a land model, remote sensing, and in situ measurement
  145. Intercomparison of Seven NDVI Products over the United States and Mexico
  146. Overview of the Large-Scale Biosphere–Atmosphere Experiment in Amazonia Data Model Intercomparison Project (LBA-DMIP)
  147. Spatiotemporal Variability of Summer Precipitation in Southeastern Arizona
  148. Assessment of CMIP5 Model Simulations of the North American Monsoon System
  149. Terrestrial Carbon Cycle: Climate Relations in Eight CMIP5 Earth System Models
  150. The Effect of Atmospheric Water Vapor on Neutron Count in the Cosmic-Ray Soil Moisture Observing System
  151. Development of Global Hourly 0.5° Land Surface Air Temperature Datasets
  152. Soil microbial respiration from observations and Earth System Models
  153. An integrated modelling framework of catchment-scale ecohydrological processes: 2. The role of water subsidy by overland flow on vegetation dynamics in a semi-arid catchment
  154. An integrated modelling framework of catchment-scale ecohydrological processes: 1. Model description and tests over an energy-limited watershed
  155. COSMOS: the COsmic-ray Soil Moisture Observing System
  156. The hindcast skill of the CMIP ensembles for the surface air temperature trend
  157. Measurement depth of the cosmic ray soil moisture probe affected by hydrogen from various sources
  158. Surface Skin Temperature and the Interplay between Sensible and Ground Heat Fluxes over Arid Regions
  159. A toy model for monthly river flow forecasting
  160. Towards a comprehensive approach to parameter estimation in land surface parameterization schemes
  161. Urban Meteorology
  162. What is monthly mean land surface air temperature?
  163. A fully multiple-criteria implementation of the Sobol′ method for parameter sensitivity analysis
  164. Temporal- and Spatial-Scale Dependence of Three CMIP3 Climate Models in Simulating the Surface Temperature Trend in the Twentieth Century
  165. Improvement of daytime land surface skin temperature over arid regions in the NCEP GFS model and its impact on satellite data assimilation
  166. Evaluation of the Reanalysis Products from GSFC, NCEP, and ECMWF Using Flux Tower Observations
  167. Evaluation of multireanalysis products with in situ observations over the Tibetan Plateau
  168. Earth System Model, Modeling the Land Component of
  169. Earth System earth system Model, Modeling the Land Component earth system modeling the land component of
  170. An Assessment of the Uncertainties in Ocean Surface Turbulent Fluxes in 11 Reanalysis, Satellite-Derived, and Combined Global Datasets
  171. Parameterization improvements and functional and structural advances in Version 4 of the Community Land Model
  172. Natural and drought scenarios in an east central Amazon forest: Fidelity of the Community Land Model 3.5 with three biogeochemical models
  173. Sensitivities of terrestrial water cycle simulations to the variations of precipitation and air temperature in China
  174. Land surface modeling inside the Biosphere 2 tropical rain forest biome
  175. Reply to Comments on “What Is the Atmosphere's Effect on Earth's Surface Temperature?”
  176. When Weather Matters
  177. Improving snow processes in the Noah land model
  178. The COsmic-ray Soil Moisture Observing System (COSMOS): a non-invasive, intermediate scale soil moisture measurement network
  179. Comparison of Land–Precipitation Coupling Strength Using Observations and Models
  180. Reply
  181. A comparison of ship and satellite measurements of cloud properties with global climate model simulations in the southeast Pacific stratus deck
  182. Evaluation of Snow Albedo in Land Models for Weather and Climate Studies
  183. Revising the Ensemble-Based Kalman Filter Covariance for the Retrieval of Deep-Layer Soil Moisture
  184. What Is the Atmosphere's Effect on Earth's Surface Temperature?
  185. Precipitation and precipitable water: Their temporal-spatial behaviors and use in determining monsoon onset/retreat and monsoon regions
  186. Improving the treatment of the vertical snow burial fraction over short vegetation in the NCAR CLM3
  187. The Hills Are Alive: Earth Science in a Controlled Environment
  188. Impact of Modified Richards Equation on Global Soil Moisture Simulation in the Community Land Model (CLM3.5)
  189. Improving the Numerical Solution of Soil Moisture–Based Richards Equation for Land Models with a Deep or Shallow Water Table
  190. Effects of soil wetness, plant litter, and under-canopy atmospheric stability on ground evaporation in the Community Land Model (CLM3.5)
  191. The Equatorial Pacific Cold Tongue Bias in a Coupled Climate Model
  192. Integration of a prognostic sea surface skin temperature scheme into weather and climate models
  193. Dependence of Land Surface Albedo on Solar Zenith Angle: Observations and Model Parameterization
  194. Growing temperate shrubs over arid and semiarid regions in the Community Land Model-Dynamic Global Vegetation Model
  195. Environmental Data Management at NOAA
  196. Transition and pattern diversity in arid and semiarid grassland: A modeling study
  197. Consistent Parameterization of Roughness Length and Displacement Height for Sparse and Dense Canopies in Land Models
  198. Moderate Resolution Imaging Spectroradiometer bidirectional reflectance distribution function–based albedo parameterization for weather and climate models
  199. Areal estimation of intensity and frequency of summertime precipitation over a midlatitude region
  200. Time Scales of Land Surface Hydrology
  201. The Community Land Model and Its Climate Statistics as a Component of the Community Climate System Model
  202. Characteristics of Atmospheric Surface Layer and Heat Budget over the Arctic Ice in Summer
  203. Intermediately complex models for the hydrological interactions in the atmosphere-vegetation-soil system
  204. An analysis of statistical characteristics of stratus and stratocumulus over eastern Pacific
  205. An empirical formulation of soil ice fraction based on in situ observations
  206. An intercomparison of bulk aerodynamic algorithms used over sea ice with data from the Surface Heat Budget for the Arctic Ocean (SHEBA) experiment
  207. Extending AGU's digital library
  208. Sensitivity of the NCEP/Noah land surface model to the MODIS green vegetation fraction data set
  209. Treatment of Undercanopy Turbulence in Land Models
  210. Understanding different precipitation seasonality regimes from water vapor and temperature fields: Case studies
  211. A global 0.05° maximum albedo dataset of snow-covered land based on MODIS observations
  212. A prognostic scheme of sea surface skin temperature for modeling and data assimilation
  213. Vegetation—soil water interaction within a dynamical ecosystem model of grassland in semi-arid areas
  214. Ecological dynamic model of grassland and its practical verification
  215. Reply to comment by Dekker and Rietkerk on “Multiple equilibrium states and the abrupt transitions in a dynamical system of soil water interacting with vegetation”
  216. The solar zenith angle dependence of desert albedo
  217. Marine Atmospheric Boundary Layer Height over the Eastern Pacific: Data Analysis and Model Evaluation
  218. The Effects of Observed Fractional Vegetation Cover on the Land Surface Climatology of the Community Land Model
  219. Globally Unified Monsoon Onset and Retreat Indexes
  220. Multiple equilibrium states and the abrupt transitions in a dynamical system of soil water interacting with vegetation
  221. On the regulation of minimum mid-tropospheric temperatures in the Arctic
  222. SEAFLUX
  223. Using MODIS BRDF and Albedo Data to Evaluate Global Model Land Surface Albedo
  224. Comparison of seasonal and spatial variations of leaf area index and fraction of absorbed photosynthetically active radiation from Moderate Resolution Imaging Spectroradiometer (MODIS) and Common Land Model
  225. Impact of observed vegetation root distribution on seasonal global simulations of land surface processes
  226. Likelihood of rapidly increasing surface temperatures unaccompanied by strong warming in the free troposphere
  227. The Global Climate
  228. Interannual Variability and Decadal Trend of Global Fractional Vegetation Cover from 1982 to 2000
  229. The Common Land Model
  230. Preliminary study on the relationship between temporal and spatial evolution of ecological landscape pattern and climate change in Xinjiang, China
  231. How does the partitioning of evapotranspiration and runoff between different processes affect the variability and predictability of soil moisture and precipitation?
  232. Which Bulk Aerodynamic Algorithms are Least Problematic in Computing Ocean Surface Turbulent Fluxes?
  233. Comparison of seasonal and spatial variations of albedos from Moderate-Resolution Imaging Spectroradiometer (MODIS) and Common Land Model
  234. The Land Surface Climatology of the Community Land Model Coupled to the NCAR Community Climate Model*
  235. Parameterization of Wind Gustiness for the Computation of Ocean Surface Fluxes at Different Spatial Scales
  236. Coupling of the Common Land Model to the NCAR Community Climate Model
  237. How does snow impact the albedo of vegetated land surfaces as analyzed with MODIS data?
  238. More Heat Over Greenhouse Gases
  239. Relating MODIS-derived surface albedo to soils and rock types over Northern Africa and the Arabian peninsula
  240. A proposed mechanism for the regulation of minimum midtropospheric temperatures in the Arctic
  241. Analysis of a multiyear global vegetation leaf area index data set
  242. Uncertainties in sea surface turbulent flux algorithms and data sets
  243. Global Vegetation Root Distribution for Land Modeling
  244. Comparison of albedos computed by land surface models and evaluation against remotely sensed data
  245. Evaluation of the Utility of Satellite-Based Vegetation Leaf Area Index Data for Climate Simulations
  246. Measurements Of Fine-Scale Structure At The Top Of Marine Stratocumulus
  247. Derivation and Evaluation of Global 1-km Fractional Vegetation Cover Data for Land Modeling
  248. The Relationship among Precipitation, Cloud-Top Temperature, and Precipitable Water over the Tropics
  249. A multiyear hourly sea surface skin temperature data set derived from the TOGA TAO bulk temperature and wind speed over the tropical Pacific
  250. The role of root distribution for climate simulation over land
  251. Intercomparison of Bulk Aerodynamic Algorithms for the Computation of Sea Surface Fluxes Using TOGA COARE and TAO Data
  252. Adjustment of GCM Precipitation Intensity over the United States
  253. Interactions between the atmosphere and terrestrial ecosystems: influence on weather and climate
  254. Impact of diurnally-varying skin temperature on surface fluxes over the tropical Pacific
  255. Effect of Surface Sublayer on Surface Skin Temperature and Fluxes
  256. Mesoscale fluxes over heterogeneous flat landscapes for use in larger scale models
  257. Several Unresolved Issues in Numerical Modelling of Geophysical Flows
  258. Heat and Momentum Fluxes Induced by Thermal Inhomogeneities with and without Large-Scale Flow
  259. Comparison of Precipitation Observed over the Continental United States to That Simulated by a Climate Model
  260. Climatic Impact of Amazon Deforestation—A Mechanistic Model Study
  261. Further Study on the Predictability of Landscape-Induced Atmospheric Flow
  262. Landscape-Induced Atmospheric Flow and its Parameterization in Large-Scale Numerical Models
  263. Atmospheric Vortices
  264. Long-Term Variability of Climate
  265. Error-Growth Dynamics and Predictability of Surface Thermally Induced Atmospheric Flow
  266. Atmosphere-terrestrial ecosystem interactions: implications for coupled modeling
  267. Chaos Theory and Its Applications to the Atmosphere
  268. What does a low-dimensional weather attractor mean?
  269. Reply to Jascourt and Raymond
  270. Estimating the Fractal Dimension and the Predictability of the Atmosphere
  271. EXTRACTING LYAPUNOV EXPONENTS FROM SHORT TIME SERIES OF LOW PRECISION
  272. Estimating the Lyapunov-exponent spectrum from short time series of low precision
  273. Chaos in daisyworld