30 18 30
he og «d a y = 0.0072x - 13.032
25 + a 25 | R? = 0.2171
:3000), << = 44 4, PE
on fhe e: 201 S 12 + & 20.
terrain. 5 e © oiv E e
e of 80 PD 15+ o o $1541 e ,
É 9 o 8j o
E E a €
ly pre- = 10+ e = 91 = 10 + é
erature e + 4 : A a 7 fo
'SS and 84 e c 1 A 5. / e
i previ * 21 9
3 L
TE 0 | } ! 0 U N 0 +
Pen 02 025 03 035 04 16 17 18 19 20 21 22 1000 2000 3000 4000
n 16 to albedo max. diurnal temperature thermal inertia
differences ( °C) (J/m? Ks'2)
he pre- —a) a) )
orologi-
: 30 30
lows: = -57.393x + 34.03 S0 0092x
\gitude: R? = 0.557 y= -2.5097x * 63.728 y= 0. - 9.611
25 + : 25 + R° = 0.6519 25 | R2=0.7595 ;
e * m 5A
mL» = S = .
the soi OT o> > R20 4
© . = à ^ o a®
= © Sn = A ^ 5 ©
% 15+ a” % 15 + A A à & ol ®
o v Oo A^ 4 o 15 N
E E Y N E / A
= 40 + = 10 + ~ st
9 9 e 1001 /
n com- 2
heoreti- 51 ST 51
n. 0 + + 0 AA 0 ; :
ollected 02 025 03 035 04 15 16 17 18 19 20 21 22 1000 2000 3000 4000
jonship max. diurnal temperature thermal inertia
in al albedo differences ( oC) (J/m? Ks'2)
b) b) b)
hollows
30 30 30
Pratt’. « 7? à à Al
simple Ble >. : 25 4 $ 25 + 9 e
PE $5.29 A^ A e /e
x = I N = /
201 + & 204 * & 201 ° u
5 2 > 2 ]
shown $ 15 - e 5 15 + A 5 15 + dd e
E © o
= 10 + £ 10 + E
= 2 3 E
| -091 51 y=-51.223x + 38.357 5+ y=-3.5431x + 88.74 5+ y=0.0105x - 7.1197
| -0,84 R = 0.2757 R? = 0.8074 R2 = 0.6039
| 087 0 ; 0 ee ne 0 | |
| 0.8 02 025 03 035 04 15 16 17 18 19 20 21 22 1000 2000 3000 4000
J 4.7 max. diurnal temperature thermal inertia
| 06 albedo differences ( ^C) (J/m? Ks?)
1 c) c) c)
ial tem :
rface is Fig.3. Relationship between albedo; maximum diurnal temperature differences, thermal inertia and soil moisture,
a) soil surface, b) hillocks of micro-relief, c) hollows of micro-relief.
n Fig.3.
283
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B7. Vienna 1996
