Effect of Acacia mangium Canopy on Physicochemical Characteristics and Nutrient Concentrations of the Soil at Ayer Hitam Forest Reserve, Malaysia

The establishment of an Acacia mangium plantation often alters physicochemical characteristics and nutrient concentrations of soils. We aimed to evaluate the invasive potential of A. mangium forest on the soil in Ayer Hitam Forest Reserve, Peninsular, Malaysia. To achieve the mentioned target, four...

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Bibliographic Details
Published in:Forests 2021-09, Vol.12 (9), p.1259
Main Authors: Hamad-Sheip, Younes, Abdul-Hamid, Hazandy, Abiri, Rambod, Saleh, Mohd-Nazre, Mohamed, Johar, Jalil, Abd-Majid, Naji, Hamid R.
Format: Article
Language:English
Subjects:
Acacia mangium
Adaptability
Ayer Hitam Forest Reserve
Bulk density
Calcium
Cation exchange
Cation exchanging
Chemical analysis
Clay loam
degraded local forests
Electrical resistivity
Forests
Gravity
Magnesium
Moisture content
Nitrogen
Nutrient concentrations
Organic matter
Particle density (concentration)
Peninsular Malaysia
pH effects
Phosphorus
physicochemical characteristics
Physicochemical properties
Rainforests
soil
Soil characteristics
Soil fertility
Soil moisture
Soil properties
Subsoils
Topsoil
Water content
Wind
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Summary:The establishment of an Acacia mangium plantation often alters physicochemical characteristics and nutrient concentrations of soils. We aimed to evaluate the invasive potential of A. mangium forest on the soil in Ayer Hitam Forest Reserve, Peninsular, Malaysia. To achieve the mentioned target, four different regions, namely, the open ground region (OG), Acacia mangium region (AM), transition region (TZ), and native forest region (NF), were selected and each of the regions was divided into six plots. Composite samples were randomly taken from subplots at 0–15 cm depth (topsoil) and 15–30 cm depth (subsoil). Some physicochemical properties such as soil moisture and texture, textural classification, bulk density and particle density, pH, electric conductivity (EC), exchangeable bases (EB) (Ca, Mg and K), cation exchange capacity (CEC), organic matter (OM), total nitrogen (TN), and available phosphorous (Av. P) were analyzed. The results of our study showed that the soil of the AM region, which was clay loam, contained clay (51%), silt (32%), and sand (16%). The chemical analysis of topsoil showed significant differences in terms of OM%, exchangeable- Ca, Mg, K (molc kg−1), N (%), gravitational water content (GWC), and Avail. P between all four regions. Additionally, the highest pH and OM of topsoil were seen in the AM region with 4.5% and 4.33%, respectively. In the subsoil, there were significant differences (p ≤ 0.01) in terms of EC (ds/m), OM (%), Exchangeable- Ca, Mg and K (cmolc kg−1), GWC, available phosphorus, and N (%) between all four regions. The highest GWC, N (%), and Ca (cmolc kg−1) were observed in the AM region with 16.00, 0.14%, and 0.64 cmolc kg−1, respectively. These results showed that A. mangium changed some soil characteristics due to its invasion potential. In summary, A. mangium showed high adaptability on degraded forest land and high ability to accumulate the soil physicochemical properties to enhance its growth.
ISSN:1999-4907
1999-4907
DOI:10.3390/f12091259