Plants and Environment: The hydrological cycle BauerGottwein... · Outline • The global...
Transcript of Plants and Environment: The hydrological cycle BauerGottwein... · Outline • The global...
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Outline
•
The global hydrological cycle and the plants’
role in it
•
Plants and water quantity–
Plant evapotranspiration
at the local scale
–
Plant evapotranspiration
at the regional scale•
Plants and salinization
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The global hydrological cycle and the plants’
role in it
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Global Water Balance (Fluxes in 103 km3/a)
ET Oceans
430
Natural ET 50
ET agriculture
20
ET irrigation agriculture
2
Land
Acess. runoff
13
Precipitation over land
110Total ET over land
70
Total discharge
40
Inaccess. runoff
29 ET rainfed
agr. 18
Human withdrawals
4Discharge withdrawals
2
Rainfall over the Oceans
390
TransportAtmosphere
40
Oceans
Residual access. Runoff 9
Compare with discharge River Rhine at its mouth 2300 m3/s ≅
0.073 103
km3/a
Modified after Postel et al., 1996
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Global Aspect of Water
•
70% of freshwater demand is by irrigated agriculture•
Irrigated agriculture is three times as productive as rainfed
agriculture
•
1 t grain needs 1000-2000 t water•
There is a world market for grain•
New trend: biofuel
production
The global aspect of water is food production
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Net irrigation
requirements (mm/yr)
Döll, 2002
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Ü0 240 480 720 960120Kilometers
water
evergreen needleleaf forest
evergreen broadleaf forest
deciduous needleleaf forest
deciduous broadleaf forest
mixed forest
closed shrublands
open shrublands
woody savannahs
savannahs
grasslands
permanent wetlands
croplands
urban and built-up
cropland natural vegetation mosaic
permanent snow and ice
barren and sparsely vegetated
unclassified
Agricultural water use in the Aral Basin
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Global Trends (1960-2005)
Grain production was able to balance population growthProductivity was increased twofold
Twofold increase of populationWorld population, 1000 peopleSource WRI, http://earthtrends.wri.org/
0
400000
800000
1200000
1600000
2000000
1960 1965 1970 1975 1980 1985 1990 1995 2000 2005
Cropped area almost constantCultivated area, 1000 hectaresSource WRI, http://earthtrends.wri.org/
0
500000
1000000
1500000
2000000
2500000
1960 1965 1970 1975 1980 1985 1990 1995 2000 2005Twofold increase in grain productionCereal production, 1000 tonsSource WRI, http://earthtrends.wri.org/
0
2000000
4000000
6000000
8000000
10000000
1960 1970 1980 1990 2000
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Global Trends (1960-2005)
Decreasing food prices (until recently…)Grain prices in year 1990 dollars per tonSource: International Rice Research Institutehttp://www.irri.org/science/ricestat/index.a
sp
Six fold increase in fertilizer useWorld fertilizer use, 1000 tons per yearSource WRI, http://earthtrends.wri.org/
Increased productivity is partly due to irrigation agriculture
0
20000
40000
60000
80000
100000
120000
140000
160000
1960 1965 1970 1975 1980 1985 1990 1995 2000 2005
Increase of irrigated areaGlobal irrigated area, 1000 hectaresSource WRI, http://earthtrends.wri.org/
0
50000
100000
150000
200000
250000
300000
1960 1965 1970 1975 1980 1985 1990 1995 2000 20050
200
400
600
800
1000
1200
1400
1960 1970 1980 1990 2000
RiceWheatMaize
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From Birur et al., 2008http://www.fapri.iastate.edu/outlook2008/
The Biofuel
Boom
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Impact on Food Prices
IMF, http://www.imf.org/external/np/res/commod/index.asp
World Food Price Index, 2005=100
50
70
90
110
130
150
170
190
Jun-80 Jun-85 Jun-90 Jun-95 Jun-00 Jun-05
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Crop evapotranspiration requirements
0C CET K ET= ⋅ETC
crop evapotranspiration (mmd-1)KC
crop coefficient (-)ET0
Reference crop evapotranspiration (mmd-1)
Reference ET can be calculated using Penman-Monteith, Priestley-Taylor or Hargreaves equations
FAO-56, http://www.fao.org/docrep/X0490E/X0490E00.htm
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FAO-56 Reference ETReference surface:“A hypothetical well-watered reference crop with an assumed crop height of 0.12 m, a fixed surface resistance of 70 sm-1 and an albedo
of 0.23.”
( )
( )
2 ,2 ,22
02
9000.408 ( )
2731 0.34
s aRn G u e eT
ETu
γ
γ
Δ − + −+=
Δ + +FAO reference ET
FAO-56, http://www.fao.org/docrep/X0490E/X0490E00.htm
Idea: Separate climate and land surface factors
ET0
:
mm/dayRn:
MJ/m2/dayG:
MJ/m2/dayT2
: °Cu2
: m/s
es,2
: kPaea,2
: kPaΔ: kPa/°Cγ: kPa/°C
Units:
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Crop Coefficient
•
Almost independent of climate and location –
universally applicable
•
Takes into account crop height, albedo, canopy resistance and soil evaporation
•
World standard for calculation of agricultural water demand (FAO-56)
Time
KC
1 year
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Plants and water quantity
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Plant Evapotranspiration
at the local scale
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How do trees uptake water?
Eagleson, 1970
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PhotosynthesisPlants transpire enormous volumes of water but only need a few percent of that water for their physiological needs. During the day plants use radiant energy to photosynthesise energy rich glucose molecules from water and CO2
2 2 6 12 6 26CO 6H O C H O 6O→+ +
radiant energy
Respiration is the process of obtaining energy from energy rich complex molecules like glucose. It is essential to living organisms.
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Stomata
•
10-30μm in length, 50-500/mm2
of leaf, 0.3-1% of leaf area•
Primary purpose: CO2
uptake. Transpiration is an unavoidable water loss
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Sap Flow Method
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Sap Flow: Results
MSc
Sara Lerer
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Modeling: Flux-Gradient Law
rC
, representing the plant (s/m)
rah
, representing the atmospheric surface layer (s/m)
ea
, actual water vapour
pressure in the atmosphere (kPa)
es
, saturation water vapour
pressure in the leaf (kPa)
LeafStomata
s a
c ah
e eET C
r r−
=+
The water flux is proportional to the water vapour
pressure difference and inversely proportional to the total resistance
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Factors affecting rc
•
Leaf Area Index (LAI)•
Water availability
•
Temperature•
Illumination
•
Air humidity
Various physically based and (semi-) empirical parameterizations are available for all factors
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Factors affecting rah
•
Surface roughness•
Wind speed
•
Stability of the atmosphere
The aerodynamic resistance is a property of the atmospheric surface layer and expresses the efficiency of vertical turbulent transport through the surface layer
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Plant Evapotranspiration
at the Regional scale
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The Surface Energy Balance
0 Rn H ET Gλ= + + −Rn: Net radiation (W/m2)H: Sensible Heat flux (W/m2)λE: Latent heat flux (W/m2)G: Soil heat flux (W/m2)All fluxes are counted positive upwards
Rn
G
H λET
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Eqivalence
of volumetric
and energy
units
A volumetric water flux (Evapotranspiration) can
always
be
expressed
as an energy flux (latent heat), since
a fixed
amount
of energy
per unit of water
is used
to convert
the water
from the liquid
phase
to the gas phase
wET= v ETλ ρ λ⋅ ⋅
latent heat fluxW/m2
Evapotranspirationm3/m2/s=m/s
ρw
Density of liquid water (=1000 kgm-3)ET
Evapotranspiration
(ET) rate (mmday-1)λv
Latent heat of vaporization ( ≅
2.256 MJkg-1)
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Penman-Monteith
Equation( )
1
s an p a
ah
c
ah
e eR G crET
rr
ρλ
γ
−Δ − +
=⎛ ⎞
Δ + +⎜ ⎟⎝ ⎠
The PM Equation can be derived by combining• The surface energy balance• The flux-gradient law• Linearization of the water vapor pressure saturation curve (Clausius-Clapeyron)• Bowen ratio: Same rah
for water and heat
ρa
Mean air density (=1.2 kgm-3)ea
water vapour pressure (Pa; 1millibar=100Pa)es
saturation water vapour pressure (Pa)G
Soil heat flux (W/m2)Rn
Net radiation (W/m2)λET
latent heat flux (W/m2). λET = λv
ρw
ETcp
Specific heat of air (cp ≅
0.00101 MJkg-1K-1)Δ
Slope of saturation vapor pressure curve (PaK-1) γ
Psychrometric
constant (kPaK-1). γ=1.608pcp
/λv
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Measuring Evapotranspiration
at
the regional scale
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Remote Sensing: Triangle Method
MSc
Thesis Sara Lerer
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The Triangle Methodmax
,min max
i
i
ETEF
ET Hλ ϕ ϕ
λ γ ϕ ϕΔ −
= = ⋅+ + Δ −
Evaporative Fraction
Jiang & Islam, 2001
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NDVI (Normalized Difference Vegetation Index)
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Normalized Difference Vegetation Index (NDVI)
Green vegetation has a characteristic spectral reflectance.
NIR vis
NIR vis
r rNDVI
r r−
=+
NDVI is a measure of density and state of the vegetation cover.Note that NDVI can also be used to detect water surfaces (NDVI<0).
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ΔLST (Land Surface Temperature)
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The TriangleMay 22, 2007 April 23, 2007
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Mean AET (mm/day)
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Plants and salinization
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Shallow sand aquifer
Swamp Qdry
ET
Qin
Infiltration is roughly proportional to coastline length
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Shashe River Valley: Setting
Tham
alaka
ne Fa
ult
Kunyere
Fault
Boronyana
Shashe
Nxotega
Maun
P. Bauer et al., Journal of Hydrology 316 (1-4):163-183, 2006
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Distance from River Valley (m)
Rel
ativ
e E
leva
tion
(m)
BH 5746
BH 8258
BH 8256
BH 8253
BH Z10587
500 1000 1500 2000 2500-15
-10
-5
0
5
Water Level Oct. 1991Water Level Feb. 2000Water Level Dec. 2002
Shashe Field Data
Shashe River
Boronyane River
Nxotega River
12
6
Con
duct
ance
(mS)
N
8 km
MAUN
Distance from River Valley (m)
Rel
ativ
e
E
leva
tion
(m)
BH 5746
BH 8258
BH 8256
BH 8253BH Z10587
500 1000 1500 2000 2500-15
-10
-5
0
5
EC Apr. 1997EC Dec. 2002
0
10
20 G
roun
dwat
er E
Cm
S/c
m
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The SystemTranspiration
Water is moving out of the domain, salts are left behind →Concentrations rise
concentration
transpiration
accumulation
toxicity
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Standard implementation of transpiration in GW models
s iji j
h hS K qt x x
⎛ ⎞∂ ∂ ∂ ⎟⎜= +⎟⎜ ⎟⎟⎜⎜∂ ∂ ∂⎝ ⎠
,max( , , ) ( , ) ( )ET ET ETq x y h q x y f h= ⋅
( )( )ij i
i j i
c cD v c m
t x x xθ
θ θ⎛ ⎞∂ ∂ ∂ ∂⎟⎜= − +⎟⎜ ⎟⎟⎜⎜∂ ∂ ∂ ∂⎝ ⎠
( , , , )ET ET ETm q x y h c c= − ⋅
for c<
for c
ET
ET
c c
c
μ
μ μ
=
= ≥
( ) 1 for h>ESETf h =
( ) 1
for ES-d<h<ES
ETES h
f hd−
= −
( ) 0 h<ES-dETf h =
Flow Transport
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The willow tree toxicity test
e.g. Larsen et al., ES&T, 2005
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Results from willow tree experiments:
Phytotoxicity
of NaCl
11
1 /NRT
cτ= −
+
NRT: Normalized relative transpiration
ln(c), c in kg m-3
NR
T 240 (%
)
-3 -2 -1 0 1 2 3 40
10
20
30
40
50
60
70
80
90
100normalized NRT240 dataexcluded 24 hour databest fit95% confidence interval
In agreement with published literature, e.g. Maas & Hoffman (1977), v. Genuchten & Hoffman (1984)
-3 = 0.39 kg mτ
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Results from willow tree experiments:
Uptake of NaCl0 5 10 15 20
-10
0
10
20
30
c in kg m-3
c T in k
g m
-3
full concentration range
24h48h72h96h168h192h240h
0 2 4 6 8-2
0
2
4
6
8
c in kg m-3
c T in k
g m
-3
zoomed inset
Break-through point
c: salt concentration in watercT
: uptake concentration
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Model of uptake by plant roots
Root compartment
passive uptake of salt and waterenzymatic removal of saltuptake of water and salt
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Model of plant roots
2
,max
,max ,maxmax
,ma
max
x
0
1 4( )
2
R T
TRW
T
R RW
T TM
R
RW
R RW
TM
M RWT R
R
Tdc
V q cdt
c cKqM Kq qc K vM M
qv K c
MK K c
K
c
Kq
cM
β β αγα
α
β
γ
⋅ ⋅⋅
+= = ⋅ − −
− − −=
= −
= − −
⋅⋅
=
Michaelis-Menten
kinetics for removal
Steady-state in the root compartment
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Model Results: Original Concept
2700 years
5400 years
8100 years
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Model Results: New Concept
2700 years
5400 years
8100 years
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Conclusions•
Plants are key players in the hydrological cycle
•
Plants (irrigated agriculture) is the major water user on the global scale
•
Plant evapotranspiration
is still one of the most challenging processes –
both
in terms of modeling and monitoring•
Plants have a key role in soil and groundwater salinization