The following is the continuation of the observation of the growth of the Padi Huma Bakilong seedlings. Seedlings in soil sample S5 has since germinated from Week 2. The plant nutrient deficiencies from the previous week remains the same, though the symptoms are now more more pronounced.
S1
 |
| Figure 1: Pot of soil sample S1 |
Average plant height: No germination
Germination rate: 0 %
Mortality rate: 100 %
Deficiency symptoms: - No germination
S2
 |
| Figure 2: Pot of soil sample S2 |
Average plant height: 24.367 cm
Germination rate: 61.111 %
Mortality rate: 38.889 %
 |
| Figure 3: Seedlings in S2 suffering from plant nutrient deficiency |
Deficiency symptoms:
-Brown colour at the tip of the leaves (Deficiency in Potassium)
-Leaves are yellowish green (Deficiency in Nitrogen)
S3
 |
| Figure 4: Pot of soil sample S3 |
Average plant height: 24.3 cm
Germination rate: 57.407 %
Mortality rate: 42.592 %
Deficiency symptoms:
-Brown colour at the tip of leaves (Deficiency in Potassium)
-Leaves are yellowish green (Deficiency of Nitrogen)
Note: It is interesting to point out that the average height of both S2 and S3 are now roughly the same (24.367 cm and 24.3 cm respectively) despite in the previous week the difference in average height was vastly different (21.833 cm for S2 and 8.633 cm for S3). This may be due to the higher lack of nutrients in S2 compared to S3, as the seedlings in S2 shows more pronounced signs of deficiency. Unfortunately, no clear pictures of the plant nutrient deficiency in the seedlings of S3 was taken on that day and thus no proper comparisons can be made.
S4
 |
| Figure 5: Pot of soil sample S4 |
Average plant height: 38.733 cm
Germination rate: 100 %
Mortality rate: 0 %
 |
| Figure 6: Potassium nutrient deficiency symptom on the leaf tip of one of the taller seedlings |
 |
| Figure 7: Noticeable potassium deficiency on the tips of the leaves of one of the shorter seedlings |
Deficiency symptoms:
-Brown colour at the tip of leaves (Deficiency in Potassium)
Note : Soil sample S4 seems to be the most fertile among the five soils as not only the seedlings grew taller, weeds have since grown in the soil of S5. No other soil sample has weeds in them.
 |
| Figure 8: Weeds growing in soil sample S5 |
S5
 |
| Figure 9: Pot of soil sample S5 |
Average plant height: 9.167 cm
Germination rate: 37.037 %
Mortality rate: 62.962 %
Deficiency symptoms: - None observed
Root-Tip Measurement and Seedling Weight
The root-tip measurement of the seedlings were also taken.
 |
| Figure 10: Seedlings from soil sample S2, S3, S4, and S5 |
Five seedlings were measured from root to tip and averaged. Below are the results of the measurements.
S2: 28.22 cm
S3: 29.00 cm
S4: 37.62 cm
S5: 8.78 cm
The wet weight of the seedlings were also taken. Afterwards, the seedlings were left to dry until no water is present so that it can be dry weighted. The latter part has yet to be concluded.
Wet weight of seedlings
S2: 0.8029 g
S3: 0.6218 g
S4: 0.9360 g
S5: 0.3122 g
Sieve Analysis
Table 1 shows the sieve analysis data
for S1
Sieve No.
|
Sieve opening mesh
size
|
Mass of soil retained
on each sieve
|
% of mass retained
(Rn) on each sieve
|
Cumulative % Rn
|
% Finer 100
-∑Rn
|
1
|
2mm
|
63.89
|
22.00
|
22.00
|
78.00
|
2
|
1mm
|
57.05
|
19.64
|
41.64
|
58.36
|
3
|
212µm
|
107.15
|
36.89
|
78.53
|
21.47
|
4
|
125µm
|
53.35
|
18.37
|
96.9
|
31
|
5
|
63µm
|
6.94
|
2.39
|
99.29
|
0.71
|
pan
|
2.11
|
0.73
|
100
|
0
|
|
Total
|
290.49
|
Total dry
weight, S1= 301.30g
Mass loss during sieve analysis = 0.036g
Table 2 shows the sieve analysis data
for S2
Sieve No.
|
Sieve opening mesh size
|
Mass of soil retained on each sieve
|
% of mass retained (Rn) on each
sieve
|
Cumulative % Rn
|
% Finer 100 -∑Rn
|
1
|
2mm
|
1.09
|
0.29
|
0.29
|
99.71
|
2
|
1mm
|
2.04
|
0.55
|
0.84
|
99.16
|
3
|
212µm
|
22.17
|
5.95
|
6.79
|
93.21
|
4
|
125µm
|
313.02
|
84.06
|
90.85
|
9.15
|
5
|
63µm
|
631.28
|
8.40
|
99.25
|
0.75
|
pan
|
2.78
|
0.75
|
100
|
0
|
|
Total
|
372.38
|
Total dry
weight, S2= 378.98g
Mass loss during sieve analysis = 0.017g
Mass loss during sieve analysis = 0.017g
Table 3 shows the sieve analysis data
for S3
Sieve No.
|
Sieve opening mesh size
|
Mass of soil retained on each sieve
|
% of mass retained (Rn) on each
sieve
|
Cumulative % Rn
|
% Finer 100 -∑Rn
|
1
|
2mm
|
24.66
|
7.41
|
7.41
|
92.59
|
2
|
1mm
|
36.35
|
10.93
|
18.34
|
81.66
|
3
|
212µm
|
184.94
|
55.59
|
73.93
|
26.07
|
4
|
125µm
|
60.02
|
18.04
|
91.97
|
8.03
|
5
|
63µm
|
24.44
|
7.35
|
99.32
|
0.68
|
pan
|
2.29
|
0.69
|
100
|
0
|
|
Total
|
372.38
|
Total dry
weight, S3=340.30g
Mass loss during sieve analysis = 0.022g
Mass loss during sieve analysis = 0.022g
Table 4 shows the sieve analysis data
for S4
Sieve No.
|
Sieve opening mesh size
|
Mass of soil retained on each sieve
|
% of mass retained (Rn) on each
sieve
|
Cumulative % Rn
|
% Finer 100 -∑Rn
|
1
|
2mm
|
20.7
|
7.3
|
7.3
|
92.7
|
2
|
1mm
|
26.05
|
9.19
|
16.49
|
83.51
|
3
|
212µm
|
119.51
|
42.15
|
58.64
|
41.36
|
4
|
125µm
|
74.63
|
26.32
|
84.96
|
15.04
|
5
|
63µm
|
39.95
|
14.09
|
99.205
|
0.95
|
pan
|
2.67
|
0.94
|
100
|
0
|
|
Total
|
283.51
|
Total dry weight, S4=292.84g
Mass loss during sieve analysis = 0.032g
Table 5 shows the sieve analysis data
for S5
Sieve No.
|
Sieve opening mesh size
|
Mass of soil retained on each sieve
|
% of mass retained (Rn) on each
sieve
|
Cumulative % Rn
|
% Finer 100 -∑Rn
|
1
|
2mm
|
6.79
|
8.10
|
8.10
|
91.90
|
2
|
1mm
|
8.13
|
9.70
|
17.80
|
82.20
|
3
|
212µm
|
17.66
|
21.08
|
38.88
|
61.12
|
4
|
125µm
|
23.75
|
28.35
|
67.23
|
32.77
|
5
|
63µm
|
20.35
|
24.29
|
91.52
|
8.48
|
pan
|
7.10
|
8.48
|
100.00
|
0.00
|
|
Total
|
83.78
|
Total dry
weight, S5= 86.21g
Mass loss during sieve analysis = 0.028g
Mass loss during sieve analysis = 0.028g
Discussion
1. This method covers the sampling and determination of the particle size distribution of coarse and fine aggregates in accordance with Standard Method for Sieve Analysis of Fine and Coarse Aggregates.
2. Soil particles can be a range of sizes from boulders of metrein diameter to clay particles less than 2 µm (0.002 millimetres) in diameter.
3. The main size classes are:
Boulder: greater than 64mm
Gravel: 64 to 2mm
Sand: 2mm to 63 µm
Silt: 63 to 2 µm
Clay: less than 2 µm
4. Particle sizes are investigated by sieving the soil sample through a series of sieves to separate particles of different sizes. There are 5 size of mesh sieve are used including 2mm, 1mm, 212µm, 125µm and 63µm. The sieving machine is set by 50 rpm in 15 minutes of each soil sample particularly to be used. The weight of sediment retained in each sieve is then measured of the proportion of the sample of each size class. The retained soil in the pan may be silt and clay. A sieve cannot measure fine particles less than 63µm (0.063mm). Hydrometer are suitable be measured for fine particles less than 63µm. The mesh sizes for sand should be 2mm, 1mm, 212µm and 125µm. For silt should be 63 µm.
Conclusion
In this experiment, we found that
the sieving machine can be only measured of each particle are followed by very
coarse sand, coarse sand, fine sand and very fine sand. The results only shown
for sand and silt by sieve analysis. S2 is the most sandier compared to the
others soil particle.
No comments:
Post a Comment