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Lecture 2 Introduction to Global Hydrological Cycle Basic Processes Global Water Reservoirs Global Water Transport Terms to Remember
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Evaporation Evaportion is a process of transforming liquid water at the surface to gaseous water in the atmosphere.
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Condensation Condensation is a process of gaseous water molecules condensing on nuclei to become liquid or solid water
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Precipitation A process of liquid or solid water falling to the surface due to gravity Liquid precipitation: rainfall, drizzle, dew, mist Solid precipitation: snow, hail
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Ground Water Subsurface water in soils and rocks that are fully saturated
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Transpiration Transpiration is the process of water loss through the stomates of plant leaves during photosynthesis. Evapotranspiration Evapotranspiration = Evaporation + Transpiration
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Runoff Streamflow resulting from gravity on water in channels of varying size from the smallest trickles to the largest rivers.
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Global Water Cycle Ward and Robinson (2000) Significance: represents the largest movement of matter at the Earth’s surface; associates with the global climate system; affects human activities (population distribution, industry, transportation, etc.)
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Global Water Distribution and Characteristics
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Terms to Remember (2) 2 Fluxes: Average or instantaneous rate of water flow (gaseous, liquid, solid) per unit surface per unit time, i.e. g/(m 2 s), or g/(m 2 d), or mm/d, mm/h. All hydrological processes involve the flow of water, i.e. water fluxes. Hydrological cycles results from fluxes between reservoirs. 3Recycling time: Time that a hypothetical water molecule to return to the same point in the cycle. Usually involves more than one processes 4Turnover rate (residence time): Time required to empty (completely) and recharge a storage EEnergy: Hydrological cycles require energy and are driven by the solar energy, either directly or indirectly at the global scale.
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Terms to Remember (2) Terms related to the processes for transforming energy into water fluxes Latent heat of vaporization: energy required for transforming water in liquid forms to gaseous forms Latent heat of melting: energy required for transforming water in solid forms to liquid forms Latent heat of sublimation: energy required for transforming water in solid forms directly to gaseous forms Heat related terms: Specific heat of water (C w ): heat energy per unit volume of water, i.e., J/m 3 Specific hear capacity of water: the amount of energy required to increase water temperature by one temperature unit, i.e., J/(m 3 K)
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