Transformation of the rainfall drop- size distribution and diameter- velocity relations by the maize canopy R. P. M. Frasson

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Presentation transcript:

Transformation of the rainfall drop- size distribution and diameter- velocity relations by the maize canopy R. P. M. Frasson W. F. Krajewski

Introduction Direct throughfall DrippingStorageStemflow Atmosphere Ground Maize canopy Rainfall above the canopy Modify: Rain amountRain amount Drop size distributionDrop size distribution Velocity distributionVelocity distribution Soil erosion Soil moisture recharge

Methodology 1m Reference Disdrometer Throughfall disdrometer 0.94m 7 plants/m Top view

Canopy Characteristics:Canopy Characteristics: 13 leaves13 leaves Height: 240cmHeight: 240cm LAI: 6.1LAI: 6.1 Gap fraction: 0.09Gap fraction: 0.09

Rainfall datasetRainfall dataset Collected between 14 July and 28 August 2009:Collected between 14 July and 28 August 2009: 12 storms with accumulation > 1mm,12 storms with accumulation > 1mm, 10 storms with accumulation >10mm,10 storms with accumulation >10mm, 5.8 million drops recorded by the reference disdrometer (D 50 =2.75mm),5.8 million drops recorded by the reference disdrometer (D 50 =2.75mm), 2.7 million drops recorded by the throughfall disdrometer (D 50 =3.75mm).2.7 million drops recorded by the throughfall disdrometer (D 50 =3.75mm).

Rain drop interceptionRain drop interception Heterogeneous interception with respect to drop size.Heterogeneous interception with respect to drop size. I: Bouncing/RollingI: Bouncing/Rolling II: Ratio approaches gap fractionII: Ratio approaches gap fraction III: DrippingIII: Dripping IV: Converges to gap fractionIV: Converges to gap fraction III III IV

Area I: Bouncing thresholdArea I: Bouncing threshold

Area III: Dripping thresholdsArea III: Dripping thresholds Case A:Case A: Attachment length L ≈ equivalent volume diameter D. Case B:Case B: L ≈ circumference of a semi-sphere with equivalent volume diameter D.

Diameter-velocity measurementsDiameter-velocity measurements

Modification of the diameter-velocity relation 0.3m 1.0m 2.0m Gunn and Kinzer terminal velocity Drop acceleration calculation after Wang, P.K. and Pruppacher, H.R., Acceleration to terminal velocity of cloud and raindrops. Journal of Applied Meteorology, 16(3):

Future workFuture work Investigate how wind affects the throughfall- rainfall ratio; Create a multi-layer rainfall partitioning model to compute: Stemflow; Stemflow; Throughfall (including DSD and its moments); Throughfall (including DSD and its moments); Canopy storage. Canopy storage.

Conclusion Canopy interception efficiency is function of D. Canopy interception efficiency is function of D. Throughfall D 50 = 3.75 mm vs reference 2.75 mm Throughfall D 50 = 3.75 mm vs reference 2.75 mm Increase in N(4mm>D>4.5mm) under the canopy. Velocity measurements confirm they originate from canopy. Increase in N(4mm>D>4.5mm) under the canopy. Velocity measurements confirm they originate from canopy. Ability to measure drop sizes and velocities Ability to measure drop sizes and velocities Refining mechanistic modeling of soil erosion. Refining mechanistic modeling of soil erosion.

Thank you for your time and attention!!