year 9, Issue 4 (Winter 2020)
E.E.R. 2020, 9(4): 17-34 |
Back to browse issues page
Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:
Padiab J, Abbasi-Kalo A, Keivan-Behju F. Behavior of Soil Physical and Chemical Properties against Forest landuse Change (Case Study: Khalkhal County, Ardabil Province). E.E.R. 2020; 9 (4) :17-34
URL: http://magazine.hormozgan.ac.ir/article-1-546-en.html
URL: http://magazine.hormozgan.ac.ir/article-1-546-en.html
Assistant Professor, Department of Soil Science and Engineering, Faculty of Agriculture and Natural Resources, University of Mohaghegh Ardabili, Ardabil , abbasiayda2014@gmail.com
Abstract: (2938 Views)
Extended abstract
1- Introduction
Changing the forests and pasture landuses to agricultural lands is one of the major global concerns about environmental degradation and climate change. As a result of the rangeland and forest changes into agricultural land and also tillage operations, about 430 million hectares, representing 30% of the world's total plowed land, are annually eroded and leaving the optimal production cycle at different countries. Non-scientific and unknowingly land use changes have negative effects on desirable physical and chemical properties of soil. However, these lands have low production potential on one hand and high erodibility potential on the other hand. In the past four centuries, about 30 percent of the world's forests and natural grasslands have changed to pastures of livestock and agricultural land. Such activities reduce the input of fresh plant residues into soil and result in significant changes in physical and chemical properties of the soil (Haghighi et al., 2010). Landuse changing leads to loss of soil organic carbon, reducing nutrient availability and maintenance, changing soil biological community, degradation of soil structure, decreasing soil permeability and hydraulic conductivity and increasing soil bulk density (Golchin & Asghari, 2008). In addition, land use change and deforestation have increasingly increased CO2 that resulted in global warming and climate change in recent years.
2- Methodology
The study area is located in the forest lands of Andebil village, 5 km northeast of Khalkhal city. Khalkhal city is a suburb of Ardabil province and is about 110 kilometers far from Ardabil city. The study area covers an area of about 270 hectares and includes three types of forest, pasture and agricultural land uses. The geological structure of the area is uniformly composed of sandy limestone from the Upper Mesozoic period. 30 samples were randomly taken from each landuse (90 sampling sites in total) and surface sampling from the depth 0-30 cm was performed. The geographical location of each sample was also recorded by GPS. Undisturbed (clod) and disturbed (with shovel) samples were prepared. The experimental design was completely randomized with forest, pasture and agricultural treatments and 30 replications (in total 90 samples). Analysis of variance and Duncan's post hoc test were performed using SPSS 16.0 software after normality test of data.
3- Results
The effect of landuse on all the studied characteristics was significant (p <0.01). The percentage of sand in the three forest, pasture and agricultural landuses was significantly different. The highest average of sand was obtained in forest and the lowest amount was in agricultural use. A similar trend is observed for the significant decrease in silt mean in agricultural compared to the other two landuses. The mean of clay also shows the effect of landuse changes with a significant increase compared to other two landuses. forest and pasture samples mainly belong to the two texture classes of loamy sand and sandy loam, while agricultural samples include sandy loam, sandy clay loam and clay loam classes which are finer than the others. Bulk density was significantly increased in agricultural (1.59 g / cm3) compared to forest and pasture and there was no significant difference between forest and pasture landuse. The effect of landuse change on soil organic carbon content was significant. Comparison of the mean of this parameter in three landuses shows that the highest average of soil organic carbon was obtained in forestuse (6.32%) and the lowest (1.49%) in agricultural landuse. The amount of total soil nitrogen was significantly different at between different landuses. The highest amount of calcium carbonate (11.31%) was for agricultural use and the least (7.36%) was for forestuse. Soil EC in forest was significantly higher than pastures and agricultural landuse. The highest soil reaction (7.38) was related to agricultural use and the lowest (5.88) to forest use. The reason for the increase in soil pH in agricultural use should be the application of fertilizers and pesticides.
4- Discussion & Conclusions
The result of this study showed that the landuse change affected the soil properties significantly. Changing the landuse of forest significantly resulted in increasing of silt, clay, bulk density, soil reaction and equivalent calcium carbonate) and a decreasing in the amount of sand, organic carbon, total nitrogen and electrical conductivity of the soil.
Along with properties changing, soil qualities (which are a combination of two or more properties) are also affected by landuse changing. In most cases, landuse change has the same effects at different locations that are baring the soil surface, reducing soil permeability and ultimately speeding up surface water movement. The result of all this will be an increase in erosion in lands that once served as forest conservationists. Therefore attention to this issue can prevent the great risk of erosion threat.
1- Introduction
Changing the forests and pasture landuses to agricultural lands is one of the major global concerns about environmental degradation and climate change. As a result of the rangeland and forest changes into agricultural land and also tillage operations, about 430 million hectares, representing 30% of the world's total plowed land, are annually eroded and leaving the optimal production cycle at different countries. Non-scientific and unknowingly land use changes have negative effects on desirable physical and chemical properties of soil. However, these lands have low production potential on one hand and high erodibility potential on the other hand. In the past four centuries, about 30 percent of the world's forests and natural grasslands have changed to pastures of livestock and agricultural land. Such activities reduce the input of fresh plant residues into soil and result in significant changes in physical and chemical properties of the soil (Haghighi et al., 2010). Landuse changing leads to loss of soil organic carbon, reducing nutrient availability and maintenance, changing soil biological community, degradation of soil structure, decreasing soil permeability and hydraulic conductivity and increasing soil bulk density (Golchin & Asghari, 2008). In addition, land use change and deforestation have increasingly increased CO2 that resulted in global warming and climate change in recent years.
2- Methodology
The study area is located in the forest lands of Andebil village, 5 km northeast of Khalkhal city. Khalkhal city is a suburb of Ardabil province and is about 110 kilometers far from Ardabil city. The study area covers an area of about 270 hectares and includes three types of forest, pasture and agricultural land uses. The geological structure of the area is uniformly composed of sandy limestone from the Upper Mesozoic period. 30 samples were randomly taken from each landuse (90 sampling sites in total) and surface sampling from the depth 0-30 cm was performed. The geographical location of each sample was also recorded by GPS. Undisturbed (clod) and disturbed (with shovel) samples were prepared. The experimental design was completely randomized with forest, pasture and agricultural treatments and 30 replications (in total 90 samples). Analysis of variance and Duncan's post hoc test were performed using SPSS 16.0 software after normality test of data.
3- Results
The effect of landuse on all the studied characteristics was significant (p <0.01). The percentage of sand in the three forest, pasture and agricultural landuses was significantly different. The highest average of sand was obtained in forest and the lowest amount was in agricultural use. A similar trend is observed for the significant decrease in silt mean in agricultural compared to the other two landuses. The mean of clay also shows the effect of landuse changes with a significant increase compared to other two landuses. forest and pasture samples mainly belong to the two texture classes of loamy sand and sandy loam, while agricultural samples include sandy loam, sandy clay loam and clay loam classes which are finer than the others. Bulk density was significantly increased in agricultural (1.59 g / cm3) compared to forest and pasture and there was no significant difference between forest and pasture landuse. The effect of landuse change on soil organic carbon content was significant. Comparison of the mean of this parameter in three landuses shows that the highest average of soil organic carbon was obtained in forestuse (6.32%) and the lowest (1.49%) in agricultural landuse. The amount of total soil nitrogen was significantly different at between different landuses. The highest amount of calcium carbonate (11.31%) was for agricultural use and the least (7.36%) was for forestuse. Soil EC in forest was significantly higher than pastures and agricultural landuse. The highest soil reaction (7.38) was related to agricultural use and the lowest (5.88) to forest use. The reason for the increase in soil pH in agricultural use should be the application of fertilizers and pesticides.
4- Discussion & Conclusions
The result of this study showed that the landuse change affected the soil properties significantly. Changing the landuse of forest significantly resulted in increasing of silt, clay, bulk density, soil reaction and equivalent calcium carbonate) and a decreasing in the amount of sand, organic carbon, total nitrogen and electrical conductivity of the soil.
Along with properties changing, soil qualities (which are a combination of two or more properties) are also affected by landuse changing. In most cases, landuse change has the same effects at different locations that are baring the soil surface, reducing soil permeability and ultimately speeding up surface water movement. The result of all this will be an increase in erosion in lands that once served as forest conservationists. Therefore attention to this issue can prevent the great risk of erosion threat.
Type of Study: Research |
Received: 2020/03/26 | Published: 2020/01/30
Received: 2020/03/26 | Published: 2020/01/30
Send email to the article author
| Rights and permissions | |
 |
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |
