Esfandiar Jahantab; reza yari; Yaser Ghasemi Aryan; Maryam Saffari Aman; Hadi Moadab
Volume 29, Issue 3 , October 2022, , Pages 161-170
dariush Ghorbanian; Ehsan Zandi Esfahan; mohammad Amirjan; abolfazl nejatian
Volume 29, Issue 3 , October 2022, , Pages 171-180
yahya parvizi; Mohammad Qeytouri; Reza Bayat; Alireza Shadmani; Afshin Partovi
Volume 25, Issue 2 , August 2018, , Pages 310-323
Abstract
This research was conducted to evaluate the potential of different rangeland planting practices for carbon sequestration in various climatic and geographical regions of the country. For this purpose, the key sites of rangeland planting practices were selected in the Lorestan, ...
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This research was conducted to evaluate the potential of different rangeland planting practices for carbon sequestration in various climatic and geographical regions of the country. For this purpose, the key sites of rangeland planting practices were selected in the Lorestan, Fars, Kermanshah, Khorasan Razavi, Mazandaran, Kordestan, Kerman, Markazi, and Esfahan. Then, the characteristics of the sites selected were recorded and sampling of soil, aerial biomass, and root was performed in a random-systematic manner. The results showed that rangeland planting practices in the semi-arid forests of central Zagros slopes had the highest carbon sequestration capacity. The seeding and pit-seeding of perennial legumes and grasses such as festuca, alfalfa, sainfoin and onobrichis could sequester up to 17.4 to 80 tons of carbon per hectare. The contribution of soil in carbon sequestration was at least 93 percent of the total carbon stock of the study area. Rangeland planting practices together with exclosure caused to increased carbon sequestration up to two times. In these areas, pit-seeding was more successful than the other practices. In the Hyrcanian regions, the seeding of perennial legumes and grasses could sequester 18 tons carbon, ranked second after range planting practices in the central Zagros slopes. Rangeland planting practices in arid and semi-arid areas of the central and the eastern part of the country showed little effect on increasing the carbon sequestration capacity compared to other areas mentioned above. The highest carbon sequestration was recorded to be 5.63 and 6.51 tons carbon per hectare for the exclosure rangelands in Kardeh and Shamsabad watershed, respectively. Land use change from dry farming to rangeland in Kardeh watershed resulted in carbon sequestration of 4.7 tons per hectare.
Mohammad Ghaitori; Yahya Parvizi; Mosayeb Heshmati; Mohammad Ahmadi
Volume 25, Issue 1 , April 2018, , Pages 44-53
Abstract
Due to the vast area and biodiversity, rangelands contribute to carbon sequestration, depending on grazing management and utilization. This research was conducted on six rangeland sites including Paveh, Ravansar, Javanrood, Einelcosh, Siahkamar, Varmenjeh, and Koohsefid in Kermanshah Province. There ...
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Due to the vast area and biodiversity, rangelands contribute to carbon sequestration, depending on grazing management and utilization. This research was conducted on six rangeland sites including Paveh, Ravansar, Javanrood, Einelcosh, Siahkamar, Varmenjeh, and Koohsefid in Kermanshah Province. There utilization types were included as exclosure, heavy grazing, and land use change from rangeland to rainfed orchard. The objective was to evaluate carbon sequestration capacity through different rangeland utilization. The plant biomass sampling including canopy cover and plant root as well as plant litter were carried out in the field along three transects of 50 m using plots. Soil sampling was also done in 0-20 and 20-40 cm soil depths. Plant organic carbon was determined by flame method and SOC was measured by the Walkley and Black method. The results explored that plant biomass variation through different land-use practices and utilization is significantly attributed to carbon sequestration, so that the highest level of carbon stock for plant biomass (4.7 tha-1) and soil (114.5 tha-1) was obtained in the exclosure site, while heavy grazing caused the lowest value of organic carbon in both plant biomass (1.3 tha-1) and soil (53.4 tha-1). In addition, the land use change from rangeland to rain-fed orchard led to 86.8 tha-1 organic carbon storage in both soil and plant biomass.
Mina Ghamemi RaeiniNejad; Hosein Sadeghi
Volume 24, Issue 4 , January 2018, , Pages 699-707
Abstract
The present study was conducted to evaluate the potential of carbon sequestration in plant organs (root, stem and leaf) of Zygophyllum atriplicoides and Gymnocarpus decander and soil at two depths (0-15 and 15-30cm). The experiment was conducted in the Saleh-Abad region, 41km north of Haji-Abad, Bandar-Abbas ...
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The present study was conducted to evaluate the potential of carbon sequestration in plant organs (root, stem and leaf) of Zygophyllum atriplicoides and Gymnocarpus decander and soil at two depths (0-15 and 15-30cm). The experiment was conducted in the Saleh-Abad region, 41km north of Haji-Abad, Bandar-Abbas Hormozgan, Iran, during 2012. Sampling of plant organs was performed by separating the leaf, stem and root. After determining the average dry weight of the study species, the content of organic carbon was calculated for both plant and soil. This study was carried out in two separate factorial experiments arranged using a randomized complete design. The first factor was the type of plant species in both experiments. The second factor was the plant organs in experiment I and different soil depths in experiment II. The results showed that the highest carbon sequestration was obtained at 0-15 cm soil depth. The effects of plant species and plant organs on the content of carbon stored in plant tissues was significant (P ≤0.05) and (P ≤0.01), respectively, while the interaction of those two factors had no significant effect on stored carbon. A significant difference was found between plant organs in terms of stored carbon. In both plants, the highest and lowest content of stored carbon was observed in stem and root, respectively. According to the results, the carbon content stored in Z. atriplicoides (45.09 Kg) was 10.7% more than that of G. decander (40.74 Kg). Overall, the results of this study indicated that the highest carbon sequestration was obtained with Z. atriplicoides in the Saleh-Abad region.
Hamid Niknahad; Abdolbaset Aghtabye; Mousa Akbarlou
Volume 24, Issue 4 , January 2018, , Pages 708-718
Abstract
In view of the increasing adoption of rangeland exclosure in order to rangeland improvement and carbon sequestration, investigation of its effects on the soil properties and calculation of the economic value of sequestered carbon is important. The aim of this study was to evaluate ...
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In view of the increasing adoption of rangeland exclosure in order to rangeland improvement and carbon sequestration, investigation of its effects on the soil properties and calculation of the economic value of sequestered carbon is important. The aim of this study was to evaluate the changes in some soil physico-chemical properties, carbon sequestration rate and its economic value following grazing exclosure as compared with open grazing areas in Bozdaghi rangelands in North - Khorasan province, Iran. Therefore, in each area (exclosure and open grazing) three transects of 500 meter length and 200 meter intervals) were set up. Along each transect, five soil samples were taken at the depth of 0–15 cm in a random – systematic method (15 soil samples in each area) and transferred to the laboratory. In the laboratory, some soil physical and chemical properties such as soil texture, bulk density, porosity, saturation percentage, pH , EC , percentage of organic matter, total nitrogen, the amount of cation exchange capacity, exchangeable sodium, potassium, calcium, and magnesium were measured and erodibility index was calculated by using the modified clay ratio relation. Data analysis was performed by using independent t test in SPSS v.16 software. The results demonstrated that establishment of exclosure in Bozdaghi rangelands had significant positive effects on soil physico-chemical properties, and reduced the soil erodability index significantly (P< 0.05). The mean value of sequestered carbon in the soil of exclosure area was significantly higher than that of open grazing area (P< 0.05) and its economic value was estimated to be 4709760 toman per hectare. According to the results, especially the high economic value of sequestered carbon in the soil of exclosure area, establishment of exclosure in the study area is recommended.
savan shahrokhi; Mahshid Souri; javad moetamedi; Alireza Eftekhari
Volume 24, Issue 1 , May 2017, , Pages 98-109
Abstract
Global warming has devastating effects on the lives of organisms, causing damage to natural ecosystems, floods, droughts and climatic and ecological imbalance. Resonance effects of greenhouse gases in the atmosphere as a result of carbon dioxide concentration causes warming, melting polar ice caps, ...
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Global warming has devastating effects on the lives of organisms, causing damage to natural ecosystems, floods, droughts and climatic and ecological imbalance. Resonance effects of greenhouse gases in the atmosphere as a result of carbon dioxide concentration causes warming, melting polar ice caps, massive flooding, and deforestation. Biological carbon sequestration is soil and plants' ability to absorb carbon dioxide from the atmosphere and store it in plant and soil. Therefore, it is a method that helps to reduce atmospheric carbon and to mitigate the consequences of climate changes. In this project, the effects of restoration rangeland practices (contour furrow) on carbon sequestration were investigated in Khalifan region of Mahabad. For this purpose, in each study site (contour furrow and control), four 100-m transects were established. Along each transect, five plots spaced 20 m apart were set up systematically. At the beginning and end of each transect, a profile was excavated at two depths (0-15 and 15-30 cm). Soil and plant samples were transferred to the laboratory. Plant biomass was measured in all plots by cutting and weighing method. Carbon sequestration rate was determined for each of the samples. The data were analyzed by ANOVA and T-test. The results indicated that the highest rate of carbon sequestration in the study sites belonged to the litter. The results demonstrated that the rate of carbon sequestration in both biomass and soil in contour furrow site was higher in comparison with control site. This can be due to the positive effect of contour furrow practice on the amount of participation storage in soil, run off and erosion control and increasing the vegetation.
Mehran Lashani Zand; Yahya Parvizi; leila Ebrahimi; Bita Masoudi; Bahman Rafiee
Volume 23, Issue 2 , September 2016, , Pages 230-219
Abstract
The Earth's climate change, caused by greenhouse gases due to the expanding the use of fossil fuels, destruction of vegetation and soil degradation , is the most serious threat to sustainable development and food security, especially in arid and semi-arid regions of the world such as Iran.Carbon sequestration ...
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The Earth's climate change, caused by greenhouse gases due to the expanding the use of fossil fuels, destruction of vegetation and soil degradation , is the most serious threat to sustainable development and food security, especially in arid and semi-arid regions of the world such as Iran.Carbon sequestration in vegetation ecosystems through management methods like biological operations is an important strategy to deal with this problem.This research was aimed to compare the amount of carbon sequestration resulting from biological operations in two catchments: Rimele and Abkhandari, Khoram Abad province. Sampling was carried out along the transects and within the plots. Then, samples were dried and weighted in plots and hectare. The amount of carbon sequestration was determined per unit area. According to the obtained results, the highest and lowest carbon sequestration were recorded for the Rimele catchment (1604 kg/ ha) and Abkhandari catchment (122 kg/ ha), respectively. In addition, significant differences were found for carbon sequestration between the study sites.
Maedeh Nasri; Mehdi Ghorbani; mohammad jafari; Hosein Azarnivand; Hamed Rafiee
Volume 23, Issue 2 , September 2016, , Pages 403-396
Abstract
One of the major factors driving ecosystem destruction and various environmental problems such as carbon cycle distortion, which in its turn leads to higher greenhouse gas emission, is ignoring and not specifying different ecosystem services and functions such as carbon sequestration in environmental ...
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One of the major factors driving ecosystem destruction and various environmental problems such as carbon cycle distortion, which in its turn leads to higher greenhouse gas emission, is ignoring and not specifying different ecosystem services and functions such as carbon sequestration in environmental planning and investments and the consequent damages of these neglected functions. Thus, quantification of these functions and services and attempting to determine their economic values financially is more important than ever. The present study seeks to estimate the amount of stocked carbon and produced oxygen by biomass of Mallard County rangelands. Economic valuation of stocked carbon function was carried out by carbon tax method and economic valuation of produced oxygen was done through replacement cost method. It was found out that total carbon storage in the pilot area was 2.43 tons/hectare and the amount of supplied oxygen was 2 tons/ hectare. Overall, carbon stock function was estimated to be equal to 255658701 billion$ and oxygen supply was estimated to be 13290338850 billion $.
Ahmadreza Panahian; Hamidreza Naseri; Majid Karimpour Reyhan; Mohamad Jafari; Seyed Alireza Hoseini
Volume 23, Issue 1 , June 2016, , Pages 128-137
Abstract
Carbon absorption by plant tissues and sequestration in soil is one of the ways to reduce greenhouse gases in the atmosphere. The cultivation of plants and proper management lead to increased biomass of native plants, increased photosynthesis level and carbon adsorption as well as increasing the amount ...
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Carbon absorption by plant tissues and sequestration in soil is one of the ways to reduce greenhouse gases in the atmosphere. The cultivation of plants and proper management lead to increased biomass of native plants, increased photosynthesis level and carbon adsorption as well as increasing the amount of carbon input to soil.Roadside is among the areas having the ability to absorb carbon with a high ecological potential. The aim of this research was to measure the carbon storage in the sagebrush stands of the Eyvanakey-Garmsar roadside. For this purpose, 10 plots of 120 square meters were randomly established along three transects of 1,000 meters. In each plot, soil profiles were dug at the foot of the plants and the space between them, and soil samples were taken at three depths of 0-10 cm, 10-30 cm, and 30-50 cm in five replications. According to the obtained results, the total carbon sequestration in the soil profile was calculated to be 59.518 tons per hectare, and the total organic carbon stored in the aboveground and underground biomass of sagebrush was equal to 340.8 kg per hectare. To increase carbon sequestration in rangelands, the applied ecosystem management options must be based on three criteria including soil, biomass, and litter. Overall, plant cultivation in the roadside will result in reduced erosion and noise pollution as well as creating ecological corridor, landscape, and microclimate.
Seyedeh khadijeh Mahdavi; Mahshid Souri; Ahmad Choupanian
Volume 22, Issue 2 , August 2015, , Pages 289-297
Abstract
Increased concentration of carbon dioxide in the atmosphere is the main cause of climate change, having harmful effects for human beings. Reducing the amount of this gas by inhibiting industrial development and the use of artificial methods is not suitable due to the lack of economic justification. Therefore, ...
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Increased concentration of carbon dioxide in the atmosphere is the main cause of climate change, having harmful effects for human beings. Reducing the amount of this gas by inhibiting industrial development and the use of artificial methods is not suitable due to the lack of economic justification. Therefore, taking advantage of carbon storage potential in plant tissue and soil has attracted much attention in recent decades. According to the different climatic zones in the country, studying the carbon sequestration in each of these areas should be taken into consideration. Therefore, the potential of soil carbon sequestration in the mountain rangelands of Kermanshah Province was studied in three height classes and four aspects. Then, soil samples were taken from two depths of 0-30 cm and 30-60 cm in the habitats of Astragalus gossypinus and Astragalu sparrowianus. Soil organic carbon, bulk density, electrical conductivity, pH, moisture content and soil texture were measured in both soil depths. Stepwise regression results showed that soil parameters including texture, bulk density and pH, were the most important factors, affecting soil organic carbon. Based on the results of data analysis in a completely randomized factorial design, significant differences were observed for soil carbon sequestration among height classes and aspects at 1% level of significance. According to the results of mean comparisons based on SNK test, the highest amount of carbon sequestration was observed in the third height class and north aspect. Our results clearly showed that Astragalus parrowianus had a higher potential in soil carbon sequestration as compared to Astragalus gossypinus.
Nourollah Abdi; Saeed Gaygani
Volume 22, Issue 1 , June 2015, , Pages 100-108
Abstract
Atmospheric carbon dioxide has noticeably increased in recent decades.Experiences show that restoration of vegetation could cause carbon to be stabilized in plant tissues, called carbon sequestration.This research was aimed to compare the potential of biomass carbon sequestration in the planted vegetation ...
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Atmospheric carbon dioxide has noticeably increased in recent decades.Experiences show that restoration of vegetation could cause carbon to be stabilized in plant tissues, called carbon sequestration.This research was aimed to compare the potential of biomass carbon sequestration in the planted vegetation types of Haloxylon persicum and Atriplex canescens and natural vegetation types of Salsola incanescens and Atriplex verrucifera in northwest of Meyghan desert, Arak. In each vegetation type, aboveground and underground biomass were measured for the dominant and companion species.Results showed that in all vegetation types, the amount of carbon stored in aerial biomass was higher than of underground biomass (2.61 times for the average of all vegetation types). The total biomass carbon sequestration of H. persicum, A. canescens, S. incanescens and A. veruccifera was531.19, 228.79, 207.77 and 91.61 g/m2, respectively and the average of H. persicum vegetation type showed a significant difference with other types. Our results clearly show that after 20 years of vegetation restoration, planted vegetation types of H. persicum and A. canescens are evaluated as successful in terms of biomass carbon sequestration.
Hamidreza Fallahi; Parviz Rezvani Moghaddam; Mehdi Nassiri Mahallati; Mohammad Ali Behdani
Volume 21, Issue 1 , June 2014, , Pages 62-74
Abstract
In this study, the effects of reconstruction and conservation were investigated on plant diversity of the region of the international Carbon Sequestration Project in Hussein-Abad, South Khorasan province. In the study area, four vegetation types including Haloxylon persicum, Atriplex conescens, Haloxylon ...
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In this study, the effects of reconstruction and conservation were investigated on plant diversity of the region of the international Carbon Sequestration Project in Hussein-Abad, South Khorasan province. In the study area, four vegetation types including Haloxylon persicum, Atriplex conescens, Haloxylon persicum + Atriplex conescens and Zygophyllum eurypterum were planted in 2004. Six years after that, the plant diversity indices of four replanted vegetation types along with control vegetation type (no replanting and conservation programs) was studied in two different dates (April and May) in 2011. For this purpose, 51 quadrates (2 × 2 m) were used in each vegetation type. Results showed that the maximum plant diversity and vegetation coverage were observed in Haloxylon persicum + Atriplex conescens (30 species and 22.5%, respectively) vegetation types, and the minimum values of these indices were recorded in control (20 species and 5.5%, respectively) vegetation type. The highest and the lowest values of plant density were obtained in Atriplex conescens (539,000 plant. ha-1) and control (179000 plant. ha-1) vegetation types, respectively. The Margalef’s richness index was higher in all protected vegetation types, while uniformity index and Shannon diversity index were higher in the control vegetation type. The frequency of 65% of plant species was less than 20% and about 45% of the plant species belonged to therophytes. Overall, the experimental results showed that desert ecosystems could play an important role to improve global biodiversity if proper management programs are employed.
Aliasghar Naghipour Borj; Ghasemali Dianati Tilak; Hosein Tavakoli; Maryam Haidarian Aghakhani
Volume 16, Issue 3 , December 2009, , Pages 375-385
Abstract
Climate change and increase of global warming is one of the most important challenges in sustainable development, which is due to increase of concentration of greenhouse gasses in atmosphere. CO2 is the main part of greenhouse gasses. In order to mitigate atmospheric CO2 and create balance in greenhouse ...
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Climate change and increase of global warming is one of the most important challenges in sustainable development, which is due to increase of concentration of greenhouse gasses in atmosphere. CO2 is the main part of greenhouse gasses. In order to mitigate atmospheric CO2 and create balance in greenhouse gasses, atmospheric carbon must be absorbed and sequestrated in different forms. Rangelands ecosystems have approximately half of the worldٰs land area and they store over third of trrestrial biospher carbon. In order to evaluate the effect of grazing intensity on content and distribution of soil carbon sequestration and plant biomass, a study was carried out at Sisab semiarid rangelands of North Khorasn province. After survey, three sampling area has been specified (reference, key and critical). The content of above ground and under ground biomass carbon, litter carbon and soil organic carbon (in two depths 0-15, 15-30 cm) was determined in three area. The result showed that the total carbon sequestration in reference area was 39.79 ton/ha, in key area was 28.97 ton/ha and in critical area was 24.43 ton/ha. The results of carbon distribution showed that the soil organic carbon content was >97% of total carbon sequestration, In addition the carbon content in underground biomass was higher than above ground biomass. It was concluded that the grazing intensity cause to decrease of vegetation cover, content of plant biomass and decrease of carbon sequestration in soil and vegetation biomass, and soil is the most impotant sink for organic carbon storage in this rangelands.
Noor ... Abdi; Hasan Madah arefi; Ghava din Zahedi amiri
Volume 15, Issue 2 , January 2008, , Pages 269-282
Abstract
Atmospheric carbon dioxide concentrations have substantially increased in recent decades. Land management practices, however, offer opportunities to mitigate the rise in atmospheric CO2 concentration through sequestration of this additional carbon via storage in plant biomass and soil organic matter ...
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Atmospheric carbon dioxide concentrations have substantially increased in recent decades. Land management practices, however, offer opportunities to mitigate the rise in atmospheric CO2 concentration through sequestration of this additional carbon via storage in plant biomass and soil organic matter in a process termed terrestrial C sequestration. Rangelands ecosystems have a large potential to sequester C because they occupy about half of the world's land area. In Iran, the Astragalus rangelands with about 17 million hectare area have 10% of the country land area and have the important role in carbon sequestration. In order to investigation the role and potential of Astragalus rangelands in carbon sequestration, a study was carried out at a key area of Astragalus verus-Bromus tomentellus vegetation type in Malmir rangeland site, Shazand township of Markazi province and the content of aboveground and underground biomass carbon, litter carbon and soil organic carbon was determined. The results showed that the total carbon sequestration per hectare was 32.95 ton and 87.43 % of total carbon sequestration was soil organic carbon. The results of biomass carbon distribution showed that the carbon content in aerial biomass was higher than underground biomass. Correlation and stepwise regression analysis revealed that the content of carbon sequestration was positively related to Astragalus height and volume, aerial and underground biomass, total biomass, litter amount and soil organic carbon (SOC) content. It was concluded that the Astragalus rangelands have a large potential to sequester carbon and the soil is most important sink for organic carbon storage in this rangelands