discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

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Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology El October 2007 Tor Håkon Sivertsen Norwegian Institute for Agricultural and Environmental Research

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Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology. El October 2007 Tor Håkon Sivertsen Norwegian Institute for Agricultural and Environmental Research. Motivation and intention. - PowerPoint PPT Presentation

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Page 1: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

El October 2007Tor Håkon Sivertsen

Norwegian Institute for Agricultural and

Environmental Research

Page 2: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Motivation and intention

• This concept of ’advection’ is used by meteorologists but it is also used in other fields of science, especially by biologists. It is of importance that the specialists in the different branches of scientific research of environmental phenomena understand each other, therefore I think conceptual discussons is of importance.

• This discussion contains a specific discussion on ’advection’ and I am advertizing the importance of conceptual discussions generally.

Page 3: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

A graphical representation

of aninterpretation

of thescientific

principle usedin

meteorology

Page 4: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

The scientific principle( an interpretation)

We classify natural phenomena (put them into classes and sub-classes) like

air, cloud, soil, atmosphere, vegetational cover, canopy, leaf etc.

Then we may attach measurable quantities (parameters) to the phenomena, like mass, temperature, energy, leaf area index, momentum etc.

Page 5: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

The definition of the concept of ‘advection’

given by WMO

The transfer of air mass properties by the velocity field of the atmosphere

(International meteorological vocabulary WMO-No. 182-1992)

Page 6: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Comments on the WMO-definition

of ‘advection’ The definition of ‘advection’ is pointing specifically on the way

the science of ‘fluid dynamics’ consider fluids, by attaching and defining velocity fields and other measurable quantities (parameters) to the phenomenon, like spatial and temporal coordinates, mass, temperature, energy, momentum etc.

Further more this is the world of physics, and we consider mass, energy, momentum conserved in this model of a fluid.

This definition is clear connected to meteorological phenomena on the larger spatial scales like the synoptic scale, but below I will use the term on the scale of micro meteorology; evaporation frm a pan evapometer with a surface area of 0.25 m 2 .

Page 7: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

A few comments on the basics of traditional fluid

dynamics Basically the science of fluid dynamis is considering a micro

world of molecules and another macro world connected to parcels of fluids (containing many molecules)

In this macro world of parcels of fluid a multitude of phenomena are described quantitatively (using Navier-Stokes equations, the equation of continuity and the ‘laws’ of thermodynamics etc.).

Further more the world of the molecules is neatly connected to the macro world of the fluid parcels.

The laws of conservation of mass, of energy and momentum are almost valid in this macro world of parcels of fluid.

Page 8: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

A few comments on the turbulent flow systems of

the atmosphere The flow systems of the atmosphere are basically considered

turbulent. It therefore is impossible or meaninglerss to regard the flow systems of the atmosphere as merely consisting of parcels of air. When the resistance of the fluid has to be considered, the flow system usually has to be regarded as consisting of a average flow system ( average velocity field) plus a velocity component giving the deviation from the average flow.

A theory of such systems possible to use was originally given by Osborn Reynolds, and this system of equations is called the Reynolds equations.

By using the Reynolds equations neither the energy nor the momentum of the flow system may be regarded conserved without adding and defining extra empirical or half empirical parameters

Page 9: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology
Page 10: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Looking at the energy balance equation close to

the surface of the soil ( according to to Thom, 1975)

R n = H + E +S + D + J + A R n net radiation H vertical turbulent transfer of sensible heat E vertical turbulent transfer of latent heat S soil heat flux D horizontal flux divergence J physical storage in the canopy A chemical storage in the canopy

Page 11: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Looking at the scope of the energy balance equation

R n = H + E +S + D + J + A The physical content of the equation is the conservation

of energy, but this will always be an approximation, because:

. The definition of R n , the net radiation, is an

approximation H, vertical turbulent transfer of sensible heat, and E ,

the vertical turbulent transfer of latent heat, contains empirical coefficients making the fluxes non-linear, etc. etc.

D horizontal flux divergence

Page 12: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

The advection terms contained in the energy

balance equation

The ‘advection’ of the fluid flow is contained in the component D, the horizontal flux divergence

D n = D H + D E

DH= ∫ {∂( c puT)/ ∂x}dz

DE= ∫ {∂( c p/ )ue)/ ∂x} dz

The limits of integration along the z-axis are the soil surface and some value z R above the surface.

Page 13: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Definition of ‘advection’ connected to agro

meteorology ‘Rosenberg et. al.(1984) is defining advection in the textbook ‘Microclimate’ ‘The Biological Environment’ in the following manner:

”We will use the term advection as synonymous with the transport of energy or mass in the horozontal direction. We are most concerned with the transport of latent heat from one field to anotheror from one region to another,namely, heat that is used to evaporate water.”

 

Page 14: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Discussing ‘advection’ on larger temporal and

spatial scales This textbook ‘Microclimate’ also contains a discussion on local and global advection and regional or large scale advection.

 

Page 15: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

The cloth-line effect and the oasis effect

In Rosenberg 1t. Al, (1984), these effects are described in the following manner:

When air is horizontally transferred from areas where sensible heat has been generated through crops, a clothline effect exists.

( The crop is getting drier) 

Page 16: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

The oasis effect

When advected enerrgy is drawn from the air

an oasis effect exists. The air is being cooled when evaporation takes place. And when water supply is unlimited, the evapotranspiration is very great.

 

Page 17: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

The passage of a frontal system close to the

groundThe passages of a frontal systems, a cold front or a warm front, reaching down to the ground level , typically are situations with advection close to the ground. A site on the ground will get another type of air mass covering the area, and the horizontal transport of air has to be taken into account.

 

Page 18: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Looking at the energy balance equation close to

the surface of the soil ( according to Rosenberg et. al. , 1984)

R n = H + E +S + J + A R n net radiation H vertical turbulent transfer of sensible

heat E vertical turbulent transfer of latent heat S soil heat flux J physical storage in the canopy A chemical storage in the canopy

Page 19: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Looking at the energy balance equation ( according to

Rosenberg et. al. , 1984)

R n = H + E +S + J + A This formula is presented and discussed by Rosenberg

et al . (1984) prior to a lengthy discussion on advection. In the introduction in the textbook the content of this formula is described like this:

’ Equation (1.1) is applicable on the scale of a single plant or cropped field, exlaining how energy is provided to warm the soil and crop and to evaporate water. The equation is no less valid on the global scale explaining how energy is provided to the continents and oceans where vast quanttities of heat and vapour are given to or extracted from the atmosphere.

Page 20: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Looking at the energy balance equation ( according to

Rosenberg et.al. , 1984) R n = H + E +S + J + A But advection is not contained in this

formula. It is therefoe valid ( when the parameters are properly defined) for a field situation without advection, and it is valid on the global scale ( with global average values of the different parameters)

And advection is never discussed in a formal mathematical manner in this text-book, and only vertical transport is mathematcally discussed for H and E .

Page 21: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

The Penman formula of potential evaporation

E = a{R n + b(ew(T(z) -e(z))0.27(1+Ur (2)/100) }/(+)

E vertical turbulent transfer of latent heat the latent heat of evaporation Rn net radiation ew(T(z) the saturation vapourpressure of water e(z) the vapour pressure of water in the air Ur (2) the wind measured 2m above the ground,

unit km day a is a constant b is a constant

Page 22: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Comments on the Penman formula of potential evaporation

• The basic physical situation described by the Penman formula is turbulent vertical transfer of water vapour/evaporation from a large surface of fresh water. When looking at a large flat horizontal surface of short cut grass with no alck of water in the soil, coefficients may be determined to describe the potential evaporation from this surface.

• This fomula contains no advection, because there is no change of any properties/ parameters in the horizontal directions.

Page 23: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Estimation of pan evaporation from weather data (according tp H.

Riley)• In Norway a pan evaporimeter has been used at

Kise Research Station to estimate potential evapotranspiration, Ep ,for agricultural crops. The instrument has a surface of area of 0.25 m 2 and a depth of 60 cm.

• In Sweden a small evaporimeter designed by S.Anderson has been used in agricultural research. In 1969 Johanson derived an equation relating measurements from Anderson’a evaporimeter to global sort wave radiastion (X) and an advection term (X2 ), the latter being the produuct of average wind speed and the vapour pressure deficit ((ew(T(z) -e(z)); on daily bases.

Page 24: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Estimation of pan evaporation from weather data ( the equation used)

• The equation operationally used in Norway is further corrected by adding seasonal effects on monthly bases and it looks like this:

• Ep (mmd-1)=-5.38-0.0594*X1 + 0.1088*X2+1.84* X3 -´0.134*(X3)2

• The effect of season ( monthly values) are contained in the parameter X3 ,denoting the number of the month, in May X3=5.

Page 25: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Estimation of pan evaporation from weather

data ( discussing the content of the equation)

• The equation contains advection ( the oasis effect) connected to the method for making measurements, but the physical content of this oasis effect is not limited to the second term in the equation.

• Further more this probability system most certainly contains advection due to weather phenomena like passage of fronts, and such phenomena occur with different frequency in different months of the year.

• If it is correct that monthly frequency of local weather phenomena are hidden in this equation, this probably limit the adequate use of thed equation far from the place it was tested.

Page 26: Discussing some aspects of the concept ‘advective flow’ used in meteorology and agro meteorology

Proposal of a specific definition of

‘advection’ for practical use

‘Advection’ may be regarded as a net horizontal turbulent transfer of energy , mass and particles by the flow of air.

It is difficult to measure directly the advective transport in any system.