1.Presents the precipitation and evaporation data for a fictitious location called Azzoca Town. From this data do the following:
Calculate the difference between precipitation (PRECIP) and potential Evapotranspiration (PE) for the city listed below. Record the plus or minus value for each moth.
January, February and June are already calculated. Complete the remainder of the water-balance table. (4 marks)Table 3.1: Water-balance table for Azzoca town. Values are in mm.
|
Jan |
Feb |
Mar |
Apr |
May |
Jun |
Jul |
Aug |
Sept |
Oct |
Nov |
Dec |
|
|
Precip |
97 |
99 |
97 |
84 |
104 |
97 |
132 |
112 |
66 |
66 |
66 |
99 |
|
PE |
7 |
8 |
24 |
57 |
97 |
132 |
150 |
133 |
99 |
55 |
12 |
7 |
|
Precip – PE |
+90 |
+91 |
+73 |
+27 |
+7 |
-35 |
-18 |
-121 |
-33 |
+ 11 |
+54 |
+92 |
|
Storage |
100 |
100 |
100 |
100 |
100 |
65 |
65 |
65 |
65 |
100 |
100 |
100 |
|
Change in Storage |
0 |
0 |
0 |
0 |
0 |
-35 |
0 |
0 |
0 |
+35 |
0 |
0 |
|
AE |
7 |
8 |
24 |
57 |
97 |
132 |
150 |
133 |
99 |
55 |
12 |
7 |
|
Deficit |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
|
Surplus |
90 |
91 |
73 |
27 |
7 |
0 |
0 |
0 |
0 |
11 |
54 |
92 |
When does this city experience a net supply of water? List the months
January, February, March, April, May, October, November and December. These are the months when precipitation is higher than potential evapotranspiration. The supply of water during this period is high.
When does this city experience a net demand for water? List the months
June, July, August and September. Net demand of water is experienced when demand for water is higher than supply. They are the months when net precipitation is negative net precipitation that occurs when evapotranspiration is higher than precipitation.
What occurs during the warm months from June through September
Warm temperatures lead to higher rates of evaporation which increases the amount of water present in the air. The higher rates of moisture in the atmosphere increases the rainfall intensity (Veblen, Young, & Orme, 2015). From the data above, there precipitation recorded between June and September were higher. However, rates of potential evapotranspiration is also higher when temperatures are high. The net effect of warm temperature is a negative
What is the total AE for the year?
Total AE=
= 7+8+24+57+97+132+150+133+99+55+12+7
= 781
What is the total Deficit for the year?
Total Deficit for the year= sum of monthly deficits
= 12(0)
= 0
What is the total Surplus for the year?
Total surplus of the year= Sum of monthly surplus
= 90+91+73+27+7+11+54+92
=445
2.Given the following depths of locations in the world’s oceans, calculate the water pressure in kg/cm2. More information on the calculations can be found in “Crunch the Numbers” found on page 332 of the textbook.
Puerto Rico Trench (located between the Caribbean Ocean and Atlantic Ocean) – depth of 8648 m
To find the pressure of water given the depth of the ocean, two procedures are necessary. First, the number of bars is calculated by dividing depth of ocean by 10m. Secondly, Pressure in Kg/cm3 is obtained by multiplying number of bars by 1.
Hence at 8648 m,
Bars= 8648/10=864.8
Pressure= 864.8*1=864.8Kg/cm3
Litke Deep (located in the Eurasian Basin of the Arctic Ocean) – depth of 5450 m
Bars= 5450/10=545 Bars
Pressure of water= 545* 1= 545Kg/cm3
Halocline of the tropical ocean – depth of 1000 m
Bars= 1000/10=100
Pressure of water= 100*1= 100Kg/cm3
Mesopelagic zone – depth of 250 m
Bars= 250m/10= 25 Bars
Pressure= 25*1=25Kg/cm3
Depth of penetration of red wavelengths – depth of 20 m
Bars= 20m/10= 2 Bars
Pressure= 2*1= 2Kg/cm3
3.Table lists the annual altitude of the equilibrium line for the Devon Island glacier in Canada. For this data, answer the following:
Calculate the annual retreat or advancement of the equilibrium line. Positive values indicate advancement and negative retreat of the glacier. Present the data in a table.
|
Year |
ELA |
Change in ELA |
|
1961 |
1323 |
NA |
|
1962 |
1510 |
1510-1323 = 187 |
|
1963 |
744 |
744-1510 = -766 |
|
1964 |
610 |
610-744 =- 866 |
|
1965 |
700 |
700-610= 90 |
|
1966 |
1230 |
1230-700=530 |
|
1967 |
1100 |
1100-1230=-130 |
|
1968 |
1253 |
1253-1100=153 |
|
1969 |
1368 |
=1368-1253=115 |
|
1970 |
910 |
=910-1368=-458 |
|
1971 |
1167 |
1167-910=257 |
|
1972 |
920 |
920-1167=-247 |
|
1973 |
1200 |
1200-920= 280 |
|
1974 |
1199 |
1199-1200=-1 |
|
1975 |
1092 |
1092-1199= -107 |
|
1976 |
579 |
579-1092=-513 |
|
1977 |
1360 |
1360-579=781 |
|
1978 |
1000 |
1000-1360=-360 |
|
1979 |
920 |
920-1000=-80 |
|
1980 |
1130 |
1130-920= 210 |
|
1981 |
1300 |
1300-1130=170 |
|
1982 |
1240 |
1240-1300=-60 |
|
1983 |
840 |
840-1240=-400 |
|
1984 |
1140 |
1140-840=300 |
|
1985 |
1220 |
1220-1140=80 |
|
1986 |
670 |
670-1220=-550 |
|
1987 |
900 |
900-670=230 |
|
1988 |
1265 |
1265-900=365 |
|
1989 |
1140 |
1140-1265=-125 |
|
1990 |
1220 |
1220-1140=80 |
|
1991 |
1270 |
1270-1120=50 |
|
1992 |
825 |
825-1270=-445 |
|
1993 |
1150 |
1150-825=325 |
|
1994 |
1025 |
1025-1150=-125 |
|
1995 |
1143 |
1143-1025=118 |
|
1996 |
1280 |
1280-1143=137 |
|
1997 |
1093 |
1093-1280=-187 |
|
1998 |
1300 |
1300-1093=207 |
Describe the overall pattern(s) of the change in the glacier. Make sure to relate the change in the equilibrium line to potential changes in the zone of ablation and accumulation
A glacier is a mass accumulation of snow that has been transformed in to ice. It is a solid crystalline material that changes and moves by advancing and retreating (Paterson, 2016). In scenarios where more ice and snow are accumulated than it is lost, glacier advancement occurs. However, if the rate of ice loss is higher than the rate of addition, then glaciers will retreat. Glazier zone of accumulation is the point where slow is added to glacier causing it to be converted in to ice.
The pattern of change in glacier as illustrated in the diagram above indicates seasonality. Seasonal factors such as changes in temperature caused advancement and retreat of glaciers. Generally, higher temperature lead to melting of ice and snow which leads to retreat of glacier through a process known as ablation (Benn & Evans, 2014) . Other agents of ablation include surface meltwater runoff, sublimation, windblown snow and avalanching. In contrast, low temperatures cause freezing of vapor which result to formation and scattering of more glaziers, a phenomenon known as advancement. Negative change in equilibrium line occurs when equilibrium line moves upwards as a result of addition of more mass to the glazier than mass lost due to upward movement of zone of ablation. Positive mass balance happens when glazier gains more weight than that which is lost leading to accumulation.
What are some local or global factors that might have produced the observed changes in the glacier
The movement of glaciers through advancement and retreat is caused by both local and global factors. Advancement and recession of glaciers lead to change in volume and length (Hutter, 2017). The movements are caused by variation in solar radiation, volcanic activities, and earth quakes. Rise in air temperatures influence rate of melting and contracting which lead to decline in mass of glaciers. Rising temperatures modify precipitation volumes and snow fall which increase ablation rates.
References
Benn, D., & Evans, D. J. (2014). Glaciers and glaciation. Routledge.
Hutter, K. (2017). Theoretical glaciology: material science of ice and the mechanics of glaciers and ice sheets (Vol. 1). Springer.
Paterson, W. S. B. (2016). The physics of glaciers. Elsevier.
Veblen, T. T., Young, K. R., & Orme, A. R. (Eds.). (2015). The physical geography of South America. Oxford University Press.
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