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DETERMINING FLOW ENERGY AND EROSION COEFFICIENT FOR CLASSIFICATION OF POTENTIAL EROSION IN BINH DINH PROVINCE Luong Thi Van Faculty of Geography, Quy Nhon University ABSTRACT.. There

DETERMINING FLOW ENERGY AND EROSION COEFFICIENT

FOR CLASSIFICATION OF POTENTIAL EROSION

IN BINH DINH PROVINCE

Luong Thi Van

Faculty of Geography, Quy Nhon University

ABSTRACT The mountainous area occupies three fourth of the total area of Binh Dinh

Province The potential of landuse is very large However, under the influence of irrational exploitation and natural disasters in the past, the land resource has declined, thus leading to the decline of forest resource Furthermore, the increase of unused land and bare hills along with the decrease in the cultivated area seriously influenced on the ecological environment

as well as the socio-economic development

Therefore, the classification of erosion potential and the identification of highly assuming erosive areas (regardless of the role of the forest cover) are of a great significance in protecting the cultivated land and reducing soil erosion, improving ecological environment, thus gradually eradicating hunger and reducing poverty and improving living standard of people

The author has used a method for classification of erosion potential (M), which is based on the identification of numerical values of flow energy (Y) and erodability factor (K) K is determined by the quantity of grain force of various types of soil in mountainous areas, and the numerical values of Y are calculated on each 1ha pixel on four main rive basins in Binh Dinh as:

×∆h0.5

×P1.5 ,

where: I is the slope; ∆h is the height difference (absolute height subtracts height of base erosion at the valleys); P is the average annual rainfall

The result has identified three groups of cultivated land (convertible land) equivalent to three levels of the erosion potential (low, normal, high), that is needed for protecting measures at different levels Furthermore, we classified 100 out of 155 communes of different erosion potentials at province-wide scale

1 Introduction

The mountainous area occupies three fourth of the total area of Binh Dinh Province The potential of landuse is very large However, under the influence of irrational exploitation and natural disasters in the past, the land resource has declined, thus leading to the decline of forest resource Furthermore, the increase of unused land and bare hills along with the decrease in the cultivated area seriously influenced on the ecological environment as well as the socio-economic development

Therefore, the classification of erosion potential (CEP) and the identification of highly assuming erosive areas (regardless of the role of the forest cover) are of a great significance in protecting the cultivated land and reducing soil erosion, improving the ecological environment, thus gradually eradicating hunger and reducing poverty and

improving living standard of people

2 The method of erosion potential classification in Binh Dinh Province

The classification of erosion potential M in Binh Dinh Province is based on the numerical value of the flow energy Y and the erodability factor K in the following

formula:

M = K ×Y , (1)

The erodability factor K is determined by the quantity of grain force M* defined

by the following expression:

If n 1 > 70% then K = M*; (3)

If n 1 < 70% then K = M* 1.14; (4) with: n 1:The percentage of coarse sand (%);

n 2: The percentage of grain force from 0.1mm to 0.002mm (sand + limon);

n 3: The percentage of clay (%);

The numerical value Y of the flow energy (FE) is calculated on each pixel of size

100×100m (1 hectare in the field) on four main river basins in Binh Dinh by the following formula:

where: I is the slope; ∆h is the height difference (absolute height subtracts height of

base erosion at the valleys); P is the average annual rainfall

The above model is a modified model for calculation of losing soil proposed by Ivanovski and Kornev (Nguyen Thi Kim Chuong, 1990; CSIC, 1998)

3 The results of erosion potential classification

- Based on Binh Dinh profile’s file (Vietnam Association of Soil Sciences, 1997),

values of K for 117 hill soil profiles throughout the province has been calculated It is

found that there is a very clear split of the erodability factor among different soil types Consequently, to have a general remark on the soil erosive characteristics and to take advantage in the future research, we grouped the profiles of each soil types, and then put soil types into groups, and finally arranged these groups according to their erosive

characteristics (soil types had nearly equal K values) The results are shown in Table 1

- The results of calculating average values of the factors participated in flow

energy analysis and average values of Y for river basins are shown in tables 2 and 3

- The coefficients depending on the erosive characteristics 1, 2, 3, 4 of the correspondent soil group are populated to the soil map This map is then overlaid with

FE map of the province And finally, the product of them is the value of erosion potential for all pixels of the four basins

Table 1 K values of main soil groups and classification by erosive characteristics

Number

of profiles

K

Classification by erosive characteristics ( K )

Erodability factor

Acid aluvial soil Pc-h 3 0.116

Speck aluvial soil Pc-fe 3 0.156

1

Acid gley soil GLC-h 7 0.151

0.145 High 4

Symbolic gray soil Xh-a 29 0.106

Gley -gray soil Xg-g 14 0.114

Rockiness gray soil Xd-d 5 0.112

Feralit gray soil Xf-h 35 0.102

2

Mountain humus gray soil Xh-u 4 0.102

0.103 Rather high 3

Red cinanmonic soil Fd-h 4 0.100

Yellow cinamonic soil Fx-h 2 0.090

3

Shallow soil Ec-h 5 0.097

0.096 Normal 2

Curdle gray soil Xfe-h 4 0.044

4

Spotted gray soil Xl-a 2 0.028 0.038 Low 1

Table 2 Distribution of flow energy ( Y ) at river basins in Binh Dinh Province (unit: %)

Y level Total in

province

At Lai River Basin

At Kon River Basin

At La Tinh River Basin

At Ha Thanh River Basin

<100 44.7 35.5 42.1 65.6 45.4 100- 400 32.5 33.2 32.9 26.1 37.4

> 400 22.8 31.3 25.0 8.3 17.2 Total 100.0 100.0 100.0 100.0 100.0

Table 3 Average values (AV) of factors and average values of flow energy at river basins in Binh Dinh Province

Slope (degree) Height (m) Height difference Rainfall (mm) Flow energy (Y)

AV

Lai Giang 15.21 7.46 334.5 215.81 276.04 209.84 2001.7 327.96 409.03 292.26 Kon River 12.89 7.66 457.1 284.05 345.82 235.41 2049.0 381.20 354.48 263.43

La Tinh 10.99 6.66 203.6 168.72 170.0 168.11 1873.4 55.23 202.17 175.67

Ha Thanh 15.77 7.09 387.1 215.94 258.62 191.49 1896.1 61.43 302.48 179.19

Because of the values M of erosion potential (EP) was computed throughout the

province, we can reclassify them into 59 groups at range of 100: group 1 has M<100, group 2: from 200 to 300, group 59: from 5800 to 5900) The reclassification was carried out for upstream protection land (UPL), production forest land (PFL), convertible land (CL), cultivated land and plain as shown in Table 4

The results show that high erosion potential mainly distributes on the convertible land, the upstream protection land, and the production forest land However, we have only researched and categorized the erosion potential in Binh Dinh Province with the purpose of protecting the cultivated land on the slope area Consequently, we have not categorized the erosion potential of the upstream protection land and the production forest land, but we have only considered these levels to categorize the erosion potential of the convertible land area in Binh Dinh (in reality, the upstream protection land and the production forest land had been planned for growing forests, so there is no need to take into consideration the means of cultivated slope soil)

The total area of the convertible land in Binh Dinh is rather high (90.685 hectares, about 14.7% in total area of natural land and 22.2% in area of the hill land) This area is capable of developing agriculture or silviculture or their combination, that has been principally distributed in the first seven groups with the erosion potential

M<700 The first three groups take a large area and they are distributed quite equally,

the rest four own unremarkable area, the total of which is much less than that of groups

1, 2 and 3 We also find that if total area of the last four groups is added into group 3 then we will have an equivalent area to group 2 Therefore, we have arranged three groups of the convertible land equivalent to three levels of the erosion potential in Binh Dinh Province as bellows:

+ Group 1 of the convertible land is equivalent to the level 1 of the erosion

potential: consists of soil with erosion potential M <100 and has total area of 39.307

hectares (43.4% in the convertible land) This group has low centralization level of convertible land and low erosion potential level

+ Group 2 of the convertible land is equivalent to the level 2 of the erosion potential: consists of soil with erosion potential from 100-200 and has area of 25.690 hectares (28.3% of the convertible land) This group has average centralization level of convertible land and average erosion potential level

+ Group 3 of the convertible land is equivalent to the level 3 of the erosion potential: consists of soil with erosion potential from 200-700 and has area of 25,669 hectares (28.3% of the convertible land) This group has high centralization level of the convertible land and high erosion potential level

Table 4 Statistics of the potentially erosive area according to the General plan of Binh Dinh Province

Convertible land

Production forest land

Low critical

High critical

Total 602555 200148 90387 91563 41365 178573

1 <100 244664.75 205248.75 39306.75 55.50 6.75 47.00

2 100-200 27364.25 378.00 25689.75 1296.50 0.00 0.00

3 200-300 29438.25 149.00 22225.75 7012.50 51.00 0.00

4 300-400 32406.75 74.50 3024.50 29165.50 62.00 80.25

5 400-500 34900.75 49.75 338.50 34449.00 0.00 63.50

6 500-600 35586.50 37.75 78.25 18804.00 16637.00 29.00

7 600-700 34220.00 18.75 21.25 295.25 24255.25 9629.50

8 700-800 31031.00 25.25 0.00 241.25 13.25 30751.25

9 800-900 26768.50 19.00 0.00 84.00 129.00 26536.50

10 900-1000 22124.00 18.75 0.00 17.75 159.25 21928.25

11 1000-1100 17743.75 17.25 0.00 4.00 30.50 17692.00

12 1100-1200 13924.25 15.75 0.00 0.00 10.25 13898.25

13 1200-1300 10912.25 10.75 0.00 0.00 10.00 10891.50

Three levels of the erosion potential have been showed by a categorized map of the erosion potential

To propose plans, as well as to carry out concentrated and effective investment to protect soil for the general fund of the cultivated land, we need to categorize the erosion potential for administrative units at commune level This categorization is based on the erosion potential levels, especially the high erosion potential level (the potential erosive level 2 and level 3) As for the villages whose area of the erosion potential belongs to level 1 (the low erosion potential level), though that area is bigger than the total area of the basin it is not as attentive as others with the low erosion potential level Even some communes with small area (about 200ha) but belong to the high erosion potential level should be paid a special attention on the rational cultivation methods on slope soil in order to protect soil, prevent erosion, and ensure the capacity and rate of production

Based on the magnitude of the high erosion potential level and its ratio to the total area of the communes, we have had a two dimension statistical table (Table 4), and taken the result of categorizing communes depending on the erosion potential levels as shown in Table 5

Table 5 The specific collection of disposing convertible land (EP2 and EP3) in Binh Dinh Province at commune level

(%)

(hectare)

0-10 10-20 20-30 30-40 40-50 50-60

60-70 70-80 80-90 90-100 Total of village

<200 3 5 7 4 3 5 1 3 2 4 37

Total of communes 3 7 10 9 8 7 14 15 16 11 100/155

+ Group 1: <200ha, including 37 communes, which has the requirement of cultivated land protection at level 1, get the total area of 3,260ha; taking 35.6% in the total convertible land, and 6.5% in the EP2 and EP3 fund

+ Group 2: >200ha and <60%, including 17 communes, which has the requirement

of cultivated land protection at level 2, get the total area of 10,317ha; taking 11.5% in the total convertible land, and 19.7% in the EP2 and EP3 fund

+ Group 3: >200ha and >60%, including 46 communes, which has the requirement

of cultivated land protection at level 3, get the total area of 36,432ha; taking 41.6% in the total, and 73.4% in the EP2 and EP3 fund)

References

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