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Coupling between the aerosols and hydrologic cycles Xiaoyan Jiang Climatology course, 387H Dec 5, 2006.

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Presentation on theme: "Coupling between the aerosols and hydrologic cycles Xiaoyan Jiang Climatology course, 387H Dec 5, 2006."— Presentation transcript:

1 Coupling between the aerosols and hydrologic cycles Xiaoyan Jiang Climatology course, 387H Dec 5, 2006

2 Outlines Aerosols formation Why we care about the aerosols and hydrologic cycle? The coupling between the ecosystems and the hydrologic cycle via aerosol processing What do we need to know? What tool we can use? What data we can use to evaluate the model results? Future Challenges

3 Aerosols in the atmosphere

4 Aerosols formation ANTHROPOGENIC SOURCESNATURAL SOURCES Fossil Fuel Biomass Burning OXIDATION Secondary and Primary aerosols

5 Why we care about the aerosols and hydrologic cycle? The interaction between the aerosol and meteorological variables. 1.Direct effects---reducing the amount of solar radiation that reaches the surface 2.Indirect effects ---Changing the properties of clouds Aerosols and their relationships with clouds and rainfall are one of the weakest aspects of current meteorological and climate modeling The role of aerosols in the hydrologic cycle is unknown

6 The coupling between the ecosystems and the hydrologic cycle via aerosol processing Modified from Barth, et al. BAMS, 2005

7 What do we need to know? Emissions Emissions Anthropogenic and natural aerosols Anthropogenic and natural aerosols Microphysics and chemistry (dependent on aerosol type) Microphysics and chemistry (dependent on aerosol type) Transformation (removal efficiency of various aerosols) Transport away from source regions (horizontally, vertically) Effect of relative humidity (especially on cloud-scales) Effect of relative humidity (especially on cloud-scales) Precipitation events (intensity and frequency) Clouds

8 Changes of surface solar radiation induced by urban aerosols for 1 September 2001 based on simulations from a radiative transfer model developed by Chou and Suarez [1999]. Here ‘‘diruv’’ and ‘‘difuv’’ represent direct and diffuse UV radiation, ‘‘dirpar’’ and ‘‘difpar’’ represent direct and diffuse photosynthetically active radiation, and ‘‘dirir’’ and ‘‘difir’’ represent direct and diffuse nearinfrared radiation. The ‘‘total’’ represents the total solar radiation, and the values are shown on the right-hand axis in Wm2.

9 The effect of aerosols in the formation of clouds

10 What tool we can use? A new fully coupled meteorology- chemistry- aerosol model is being developed ----WRF-chem ----WRF-chem It is a version of WRF that simulates trace gases and particulates with meteorological fields. It allows two-way nesting to simulate the air quality and meteorological fields.

11 n Size distribution and composition: lsectional size distribution; moving-center or two-moment approach for the dynamic equations for mass and number; each size bin is internally mixed lcomposition: SO 4, NO 3, NH 4, CL, CO 3, NA, CA, other inorganics, OC, EC Aerosol treatments in WRF-chem particle diameter (  m) 0.010.1110100 0.010.1110100 particle diameter (  m) mass modal approachMOSAIC - sectional approach Accumulation Mode Coarse Mode Aiken Mode n MOSAIC has 3 unique components (Zaveri et al. 2005a,b,c): lMTEM - Multi-component Taylor Expansion Model: mixing rule for activity coefficients of electrolytes in multi-component aqueous solutions lMESA - Multi-component Equilibrium Solver for Aerosols: thermodynamic equilibrium solver for solid, liquid, or mixed phase aerosols lASTEEM - Adaptive Step Time-split Explicit Euler Method: dynamic integration of the coupled gas- aerosol partitioning differential equations numerically efficient (reduces the # of levels of iterations and # of iterations) without sacrificing accuracy; have been compared with other techniques (Fast,2006)

12 Some results using the fully coupled meteorology-chemistry-aerosol model

13 What data we can use to evaluate the model results?

14 Future Challenges Coupled model development Satellite and ground-based Measurements Physical understanding for the direct and indirect of aerosols in the atmosphere The cloud microphysics The role of secondary organic aerosols in hydrologic cycle due to the importance of water and energy cycle. Data assimilation of air quality datasets in a coupled model Model evaluation and uncertainty assessment The feedback mechanisms

15 Thank You !


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