Effect of Different Ages of a Rehabilitated Forest on Selected Physico-chemical Properties

Research Article
Effect of Different Ages of a Rehabilitated Forest on Selected Physico-chemical Properties

Rajeswari A.P. Murugayah, Seca Gandaseca, Osumanu Haruna Ahmed and Nik Muhamad Ab. Majid

American Journal of Applied Sciences, 2009, 6(6), 1043-1046.

Abstract

Problem statement: This research was important because of still lack of information about rehabilitated tropical forest age effect on infiltration rate. The objectives of this study were to determine the influence of age of forest on soil water infiltration rate and to evaluate the influence of forest age on the relationship between water infiltration rate, soil organic matter and soil texture. Approach: This study was conducted under a rehabilitated forest at Bukit Nyabau (University Putra Malaysia Bintulu Campus, UPMKB) Forest. Soil organic matter, soil texture and infiltration rate were investigated in randomly selected blocks representing different age classes, namely two, four, six, eight and ten years. Results: The results indicated that 2, 4, 6 and 8 year old forest were not significantly different in organic matter content with the mean of 8.10+2.75, 9.32+3.50, 9.55+1.71 and 8.10+2.75% respectively. Besides, 10 year forest showed no significant differences compared with two and eight year forests. Soil texture for all the forests was sandy loam, except for the 4 year old forest which was a sandy clay loam. The lowest value of sand content was observed in four year forest. However, the clay content in this forest was statistically the highest compared with 2, 4, 8 and 10 year old forest. The infiltration rate of 6 years old forest was significantly greater in soil water infiltration rate with the mean of 5.0±0.02 mm m^-1, compared with 2, 4, 8 and 10 years old forest with the means of 2.6±0.02, 4.2±0.03, 3.6±0.03 and 3.5±0.03 mm m^-1 respectively. Eight and 10 year old forests showed no significant differences in terms of soil water infiltration rate and the lowest value of water infiltration rate was observed in the two year old forest. Conclusion: From the results, it can be concluded that the soil water infiltration rate in the forest is mainly influenced by soil texture and organic matter content, but not by forest age. However, the effect of soil texture was significant compared to organic matter which facilitates water movement into soil. Soil texture with higher percentage of sand and lower percentage of clay had higher infiltration rate.

ASCI-ID: 2809-209

Table 1 show that 2, 4, 6 and 8 years old forests were not significantly different in organic matter. Ten year old forest also showed no significant difference compared with two and eight years old forests.

Infiltration rate: The infiltration rate of 6 year old forest was significantly greater compared with 2, 4, 8 and 10 years old forests. Eight and 10 years old forests showed no significant difference in terms of soil water infiltration rate (Table 1).

Soil texture: Table 2 shows sand, clay and silt contents of the soil at different ages forest. The soil texture of all of the forests were sandy loam, except for 4 year old forest which was sandy clay loam. The sand of 2, 6 and 10 years old forests were not significantly different. The clay contents of 2, 6 and 8 years old forests were not significantly different. Ten year old forest showed statistically lowest value of clay. In the case of silt content, 4, 8 and 10 years old forests were not significantly different but statistically higher compared with 6 and 2 years old forests.

Table 1:	Organic matter, soil texture and soil infiltration rate at different ages of forests

Within column having the same alphabets are not significantly different at p = 0.05 using DNMRT

Table 2:	Sand, clay and silt contents of soil at different ages of forests

Within columns having the same alphabets are not significantly different at p = 0.05 using the DNMRT

DISCUSSION

Water infiltration of soil highly depends on the pores present in the soil. Naturally, forest soils have a high percentage of macro-pores through which large quantities of water can move into the soil. Most of the macro-pores in the forest are developed from old root channels or from burros and tunnels made by insects, worms and other animals. Some macro-pores result from structural pores and cracks in the soil. The volume of these pores and their continuity determines the flow of water into the soil. Soil organic matter and soil texture are two important factors to determine soil water infiltration rate.

Soil organic matter consists of all types of carbon containing substances in the soil, except carbonates. It is a mixture of plant and animal residues in the various stages of decomposition, the bodies of living and dead microorganisms and substances synthesized from breakdown products of the above^[7]. Soil organic matter helps to improve soil aggregate which allows rapid water movement into the soil. The age of the trees are always correlated with litter production. Forest litter layers physically protects the soil surface from extreme temperature and moisture content, offer mechanical protection from raindrop impact and erosion forces and improve water infiltration rates. Depending on the species, the older trees produce more litters to contribute to the organic matter building up. Through decomposition process, the consequences of litter quality and quantity influences organic matter building up in the soil^[8]. The soil with higher organic matter content will have a higher infiltration rate^[9]. In this study, organic matter content in 10 year old forest was the lowest compared with four and six years probably because of the higher decomposition rate of the litters. High litter fall rate followed by lower of decomposition rates usually results in high litter accumulation and high soil organic matter^[10]. Therefore, it can be concluded that the ten years old forest produces high rates of litter fall and high rate of decomposition compared with other forests, thus, it has lowest value of organic matter content. The present of soil microorganism and earthworms helps the plant litters to decompose fast ^[11]. From this statement, it can be said that there are higher amount of soil microorganism and earthworms in ten year forest, thus the decomposition rate in this forest is very high to produce low organic matter content.

Water flows rapidly through sandy soils and slowly through clay soils (Singer). Sandy soils mainly have large pores, compared to clay soils. This is supported by the results obtained in Table 1 and 2, the 6 year old forest which were high in organic matter content and sand content had the highest value of water infiltration rate. Although the organic matter content in the 4 year old forest was not significantly different compared to 6 year old forest, the infiltration rate in this forest was lower due to its higher clay content and lower sand content.

In this study, the total water infiltration in all of the forests increased until they reached a steady state. This was because, when water is supplied to an initially dry soil, the suction gradients across the soil surface become very high, which results in a high infiltration rate. As the wetting front moves downward, the suction gradient across soil profile decreases, which limits the rate of water infiltration into the soil surface. After a long time, the infiltration rate approaches zero. The decrease in infiltration rate may also be caused by dispersion of aggregates or slaking, soil compaction and surface sealing or clogging of the soil pores^[12]. Pores in the soil are clogged when the soil pores are saturated with water.

Pores in forest soil are always related with the trees in that particular forest. Depending on the age of the tree, the tree roots create pores and enlarge the existing pores while they grow. The standing trees in 10 year old forest are bigger compared to the rest. They should have larger roots to create pores and enlarge the existing pores to allow rapid water movement. The infiltration rate in 8 and 10 years old forests were lower compared to 4 and 6 years probably because of the living roots of these forest trees blocked the existing pores in the soil, making them ineffective for water transport. In this case, the pores cannot transmit the water into the soil. As a result, the water infiltration rate becomes lower.

CONCLUSION

In this study, soil water infiltration rate is influenced by soil texture and organic matter content, but not forest ages. However, the effect of soil texture is higher compared to organic matter to allow rapid water movement into soil. Soil texture with higher percentage of sand has higher infiltration rate.

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