Land-use changes and afforestation activities are widely recognized as possible measures for mitigating climate change through carbon sequestration. The present study was conducted to evaluate the effect of afforestation on (i) soil physical and chemical properties and soil carbon stocks in four mountain ecosystems and (ii) whole ecosystem carbon storage. The four experimental sites, situated in the Western Rhodope Mountains (Bulgaria) were characterized by typical forest-related land-use conversions. The four sites were a Douglas fir (Pseudotsuga menziesii [Mirb.] Franco) plantation (Rd1) established on former cropland, a mixed black pine (Pinus nigra Arn.) with Scots pine (Pinus sylvestris L.) plantation (Rd2) established on former cropland, a cropland (RdA1) and an abandoned land with uncontrolled extensive grazing (RdA2) historically used as cropland. Soil parameters, i.e., sand content, pH, organic C and N contents, C/N ratio and soil organic carbon (SOC) stocks, were significantly affected by land use and land-use history. Conversion from cropland into forestland significantly reduced soil bulk density and coarse fragments at 0-10 cm depth. Compared with adjacent cropland and abandoned land, soils in coniferous plantations were acidified in their upper layers. Sites Rd2 and RdA2 contained the least SOC owing to the previous long-term arable cultivation (>100 years). Analysis of the ecosystem C stock distribution revealed that most of C in forests was stored in the aboveground tree biomass. Our study confirmed that afforestation of cropland turned the soil into a C sink for the selected mountain region, but showed conflicting results when afforestation occurred on abandoned cropland.
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Zhiyanski M, Glushkova M, Ferezliev A, Menichetti L, Leifeld J (2016). Carbon storage and soil property changes following afforestation in mountain ecosystems of the Western Rhodopes, Bulgaria. iForest 9: 626-634. - doi: 10.3832/ifor1866-008
Academic Editor
Elena Paoletti
Paper history
Received: Sep 08, 2015
Accepted: Dec 30, 2015
First online: May 06, 2016
Publication Date: Aug 09, 2016
Publication Time: 4.27 months
© SISEF - The Italian Society of Silviculture and Forest Ecology 2016
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List of the papers citing this article based on CrossRef Cited-by.
(1)
Alexandrov AH (1994)The anthropogenic interference at restoring the upper forest limit. Forest Science 1: 3-7. [in Bulgarian]
Gscholar
(2)
Angers DA, Caron J (1998)Plant-induced changes in soil structure: process and feedbacks. Biogeochemistry 42: 55-72.
CrossRef |
Gscholar
(3)
Arinushkina EV (1970)Manual in soil chemical analysis. Publishing House at Moscow State University, Moscow, pp. 487. [in Russian]
Gscholar
(4)
Ayoubi S, Khormali F, Sahrawat KL, Rodrigues de Lima AC (2011)Assessing impacts of land use change on soil quality indicators in a loessial soil in Golestan Province, Iran. Journal of Agricultural Science and Technology 13: 727-742.
Online |
Gscholar
(5)
Beheshti A, Raiesi F, Golchin A (2012)Soil properties, C fractions and their dynamics in land use conversion from native forests to croplands in northern Iran. Agriculture, Ecosystems and Environment 148: 121-133.
CrossRef |
Gscholar
(6)
Binkley D (1995)The influence of tree species on forest soils: processes and patterns. In: Proceedings of the “Trees and Soil Workshop” (Mead DJ, Cornforth IS eds). Lincoln University (New Zealand) 28 Feb - 2 Mar 1994. Agronomy Society of New Zealand, Special Publication No. 10, Lincoln University Press, Canterbury, New Zealand, pp. 1-33.
Gscholar
(7)
Bradstreet RB (1954)Kjeldahl method for organic nitrogen. Analytical Chemistry 26 (1): 185-187.
CrossRef |
Gscholar
(8)
Brêthes A, Brun JJ, Jabiol B, Ponge JF, Toutain F (1998)Types of humus forms in temperate forests. In: “A sound reference base for soils” (Baize D ed). AFES, INRA, Versailles, France, pp. 265-282.
Gscholar
(9)
Caravaca F, Lax A, Albaladejo J (2004)Aggregate stability and carbon characteristics of particle-size fractions in cultivated and forested soils of semiarid Spain. Soil and Tillage Research 78: 83-90.
CrossRef |
Gscholar
(10)
Celik I (2005)Land-use effects on organic matter and physical properties of soil in a southern Mediterranean highland of Turkey. Soil and Tillage Research 83: 270-277.
CrossRef |
Gscholar
(11)
Donov V, Gentcheva S, Yorova K (1974)Guidance for exercises in forest soil science. Zemizdat, Sofia, Bulgaria, pp. 220. [on Bulgarian]
Gscholar
(12)
EEA (2003)Environmental assessment report no. 10, Europe’s environment: the third assessment. European Environmental Agency, Copenhagen, Denmark, pp. 344.
Online |
Gscholar
(13)
EEA (2013)Annual report 2012 and environmental statement 2013. European Environmental Agency, Copenhagen, Denmark, pp. 100.
Online |
Gscholar
(14)
Ellert BH, Bettany JR (1995)Calculation of organic matter and nutrients stored in soils under contrasting management regimes. Canadian Journal of Soil Science 75: 529-538.
CrossRef |
Gscholar
(15)
ExAF (2010)Annual report of Executive Agency of Forestry for 2009. Ministry of Agriculture and Food, Sofia, Bulgaria, pp. 71. [in Bulgarian]
Online |
Gscholar
(16)
Foster GR (2001)Keynote: soil erosion prediction technology for conservation planning. In: Proceedings of the 10th ISCO Meeting “Sustaining the global farm” (Stott DE, Mohtar RH, Steinhardt GC eds). Purdue University (West Lafayette, IN, USA) 24-29 May 1999. International Soil Conservation Organization, Tuscon, AZ, USA, pp. 847-851.
Online |
Gscholar
(17)
Foth HD, Ellis BG (1997)Soil fertility (2nd edn). Lewis CRC Press LLC, USA, pp. 290.
Online |
Gscholar
(18)
Guo LB, Gifford RM (2002)Soil carbon stocks and land use change: a meta analysis. Global Change Biology 8: 345-360.
CrossRef |
Gscholar
(19)
Hebel A (1998)Soil degradation-diagnosis, appraisal and reversing measure. Introduction. In: “Toward sustainable land use” (Blume HP, Eger H, Fleischhauer E, Hebel A, Reij C, Steiner KG eds). Advances in Geoecology 31, Vol. I, Catena Verlag, Reiskirchen, Germany, pp. 1-2.
Gscholar
(20)
Holubík O, Podrázský V, Vopravil J, Khel T, Remeš J (2014)Effect of agricultural lands afforestation and tree species composition on the soil reaction, total organic carbon and nitrogen content in the uppermost mineral soil profile. Soil and Water Resources 9: 192-200.
Online |
Gscholar
(21)
Houghton RA (1999)The annual net flux of carbon to the atmosphere from changes in land use 1850-1990. Tellus B 51: 298-313.
CrossRef |
Gscholar
(22)
Hulugalle NR, Lobry De Bruyn LA, Entwistle P (1997)Residual effects of tillage and crop rotation on soil properties, soil invertebrate numbers and nutrient uptake in an irrigated Vertisol sown to cotton. Applied Soil Ecology 7: 11-30.
CrossRef |
Gscholar
(23)
IPCC (2003)Good practice guidance for land use, land-use change and forestry. Intergovernmental Panel on Climate Change, Institute for Global Environmental Strategies, Kanagawa, Japan, pp. 590.
Online |
Gscholar
(24)
ISO-10390 (2005)Soil quality: determination of pH. International Organization of Standardization, Geneva, Switzerland.
Online |
Gscholar
(25)
IUSS WG WRB (2014)World reference base for soil resources 2014. International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports No. 106, FAO, Rome, Italy, pp. 191.
Gscholar
(26)
Johnson JMF, Allmaras RR, Reicosky DC (2006)Estimating source carbon from crop residues, roots and rhizodeposits using the national grain-yield database. Agronomy Journal 98: 622-636.
CrossRef |
Gscholar
(27)
Kammer A, Hagedorn F, Shevchenko I, Leifeld J, Guggenberger G, Goryacheva T, Rigling A, Moiseev P (2009)Treeline shifts in the Ural Mountains affect soil organic matter dynamics. Global Change Biology 15: 1570-1583.
CrossRef |
Gscholar
(28)
Karlen DL, Mausbach MJ, Doran JW, Cline RT, Harris RF, Schuman GE (1997)Soil quality: a concept definition and framework for evaluation. Soil Science Society of America Journal 90: 644-650.
CrossRef |
Gscholar
(29)
Khormali F, Nabiollahi K (2009)Degradation of Mollisols in Western Iran as affected by land use change. Journal of Agricultural Science and Technology 11: 363-374.
Online |
Gscholar
(30)
Kilic K, Kilic S, Kocyigit R (2012)Assessment of spatial variability of soil properties in areas under different land use. Bulgarian Journal of Agricultural Science 18: 722-732.
Online |
Gscholar
(31)
Koulouri M, Giourga C (2007)Land abandonment and slope gradient as key factors of soil erosion in Mediterranean terraced lands. Catena 69: 274-281.
CrossRef |
Gscholar
(32)
Körner C, Paulsen J (2004)A world-wide study of high altitude tree-line temperatures. Journal of Biogeography 31: 713-732.
CrossRef |
Gscholar
(33)
Krastanov K, Beliakov P, Shikov K (2004)Table for form heights of Scots pine plantation with bark. In: “Reference book in dendrobiometry” (Krastanov K, Raikov R, eds.). Bulprophor Publishing House, Sofia, Bulgaria, pp. 611. [in Bulgarian]
Gscholar
(34)
Krastanov K, Raikov R (2004)Handbook of dendrobiometry. Bulprophor Publishing House, Sofia, Bulgaria, pp. 612. [in Bulgarian]
Gscholar
(35)
Ladha JK, Reddy CK, Padre AT, Van Kessel C (2011)Role of nitrogen fertilization in sustaining organic matter in cultivated soils. Journal of Environmental Quality 40: 1756-1766.
CrossRef |
Gscholar
(36)
Laganière J, Angers DA, Pare D (2010)Carbon accumulation in agricultural soils after afforestation: a meta-analysis. Global Change Biology 6: 439-453.
CrossRef |
Gscholar
(37)
Laganière J, Paré D, Bergeron Y, Chen HH, Brassard B, Cavard X (2013)Stability of soil carbon stocks varies with forest composition in the Canadian boreal biome. Ecosystems 16: 852-865.
CrossRef |
Gscholar
(38)
Lal R (1986)Conversion of tropical rainforest: agronomic potential and ecological consequences. Advances in Agronomy 39: 173-263.
CrossRef |
Gscholar
(39)
Leifeld J, Bassin S, Fuhrer J (2005)Carbon stocks in Swiss agricultural soils predicted by land-use, soil characteristics and altitude. Agriculture, Ecosystems and Environment 105: 255-266.
CrossRef |
Gscholar
(40)
Li J, Edwards PC, Burghammer M, Villa C (2004)The effects of land use change on soil properties and organic carbon at Dagdam River catchment in Turkey. Journal of Environmental Biology 30 (5): 825-830.
Gscholar
(41)
Lima AMN, Silva IR, Neves JCL, Novais RF, Barros NF, Mendonca ES, Smyth TJ, Moreira MS, Leite FP (2006)Soil organic carbon dynamics following afforestation of degraded pastures with eucalyptus in southeastern Brazil. Forest Ecology and Management 235: 219-223.
CrossRef |
Gscholar
(42)
MAES (2014)Mapping and assessment of ecosystems and their services. Technical Report 2014-080, European Commission, Directorate-General for the Environment, Brussels, Belgium, pp. 82.
CrossRef |
Gscholar
(43)
Masarov S (1940)Juniperus as a pioneer species of coniferous stands over pastures. Forestry Ideas 2: 123-136. [in Bulgarian]
Gscholar
(44)
Matano AS, Kanangire CK, Anyona DN, Abuom PO, Gelder FB, Dida GO, Owuor PO, Ofulla AVO (2015)Effects of land use change on land degradation reflected by soil properties along Mara River, Kenya and Tanzania. Open Journal of Soil Science 5: 20-38.
CrossRef |
Gscholar
(45)
Mooney HA, Vitousek PV, Matson PA (1987)Exchange of materials between terrestrial ecosystems and the atmosphere. Science 238: 926-932.
CrossRef |
Gscholar
(46)
Nedyalkov S, Krastanov K, Tsakov H (2004)Table for form heights of black pine plantations with bark. In: “Reference book in dendrobiometry” (Krastanov K, Raikov R eds). Bulprophor Publishing, Sofia, Bulgaria, pp. 612. [in Bulgarian]
Gscholar
(47)
Poeplau C, Don A (2013)Sensitivity of soil organic carbon stocks and fractions to different land-use changes across Europe. Geoderma 192: 189-201.
CrossRef |
Gscholar
(48)
Post WM, Kwon KC (2000)Soil carbon sequestration and land-use change: processes and potential. Global Change Biology 6: 317-327.
CrossRef |
Gscholar
(49)
Potter CS, Matson PA, Vitousek PM, Davidson E (1996)Process modeling of controls on nitrogen trace gas emissions from soils worldwide. Journal of Geophysical Research 101 (D1): 1361-1377.
CrossRef |
Gscholar
(50)
Powlson DS (2005)Will soil amplify climate change? Nature 433: 204-205.
CrossRef |
Gscholar
(51)
Preston CM, Schmidt MWI (2006)Black (pyrogenic) carbon: a synthesis of current knowledge and uncertainties with special consideration of boreal regions. Biogeosciences 3: 397-420.
CrossRef |
Gscholar
(52)
Sabev A, Stanev S (1963)Climatic districts in Bulgaria and their climate. Zemizdat Edition, Sofia, Bulgaria, pp. 180-185. [in Bulgarian]
Gscholar
(53)
Schmidt MWI, Torn MS, Abiven S, Dittmar T, Guggenberger G, Janssens IA, Kleber M, Kögel-Knabner I, Lehmann J, Manning DAC, Nannipieri P, Rasse DP, Weiner S, Trumbore SE (2011)Persistence of soil organic matter as an ecosystem property. Nature 478: 49-56.
CrossRef |
Gscholar
(54)
Schulze ED, Luyssaert S, Ciais P, Freibauer A, Janssens IA, Soussana JF, Smith P, Grace J, Levin I, Thiruchittampalam B, Heimann M, Dolman AJ, Valentini R, Bousquet P, Peylin P, Peters W, Rodenbeck C, Etiope G, Vuichard N, Wattenbach M, Nabuurs GJ, Poussi Z, Nieschulze J, Gash JH (2009)Importance of methane and nitrous oxide for Europe’s terrestrial greenhouse-gas balance. Nature Geoscience 2: 842-850.
CrossRef |
Gscholar
(55)
Shikov K (1972)Growth and productivity of the Scots and black pine under the same conditions of habitat. Gorsko stopanstvo 8: 18-22. [In Bulgarian]
Gscholar
(56)
Skousen J, Sencindiver J, Owens K, Hoover S. (1998)Physical properties of minesoils in West Virginia and their influence on wastewater treatment. Journal of Environmental Quality 27: 633-639.
CrossRef |
Gscholar
(57)
Spehn EM, Liberman M, Körner C (2006)Fire and grazing’a synthesis of human impacts on highland biodiversity. In: “Land use change and mountain biodiversity” (Spehn EM, Liberman M, Körner C eds). CRC Publishers, Boca Raton, FL, USA, pp. 337-347.
Gscholar
(58)
Swan ARH, Sandilands M (1995)Introduction to geological data analysis. Blackwell, London, UK, pp. 446.
Online |
Gscholar
(59)
Tasser E, Tappeiner U (2009)Impact of land use changes on mountain vegetation. Applied Vegetation Science 5: 173-184.
CrossRef |
Gscholar
(60)
Tisdall JM, Oades JM (1982)Organic matter and water stable aggregates in soils. Journal of Soil Science 33: 141-163.
CrossRef |
Gscholar
(61)
Trumbore SE, Chadwick OA, Amundson R (1996)Rapid exchange between soil carbon and atmospheric carbon dioxide driven by temperature change. Science 272: 393-396.
CrossRef |
Gscholar
(62)
Vagen TG, Andrianorofanomezana MAA, Andrianorofanomezana S (2006)Deforestation and cultivation effects on characteristics of Oxisols in the Highlands of Madagascar. Geoderma 131: 190-200.
CrossRef |
Gscholar
(63)
Wang HQ, Hall CAS, Cornell JD, Hall MHP (2002)Spatial dependence and the relationship of soil organic carbon and soil moisture in the Luquillo Experimental Forest, Puerto Rico. Landscape Ecology 17: 671-684.
CrossRef |
Gscholar
(64)
Ward A, Dargusch P, Thomas S, Liu Y, Fulton EA (2014)A global estimate of carbon stored in the world’s mountain grasslands and shrublands, and the implications for climate policy. Global Environmental Change 28: 14-24.
CrossRef |
Gscholar
(65)
Wendt JW, Hauser S (2013)An equivalent soil mass procedure for monitoring soil organic carbon in multiple soil layers. European Journal of Soil Science 64: 58-65.
CrossRef |
Gscholar
(66)
Wichern F, Eberhardt E, Mayer J, Joergensen RG, Müller T (2008)Nitrogen rhizodeposition in agricultural crops: methods, estimates and future prospects. Soil Biology and Biochemistry 40: 30-48.
CrossRef |
Gscholar
(67)
Wiesmeier M, Spörlein P, Geuß U, Hangen E, Haug S, Reischl A, Schilling B, Von Lützow M, Kögel-Knabner I (2012)Soil organic carbon stocks in southeast Germany (Bavaria) as affected by land use: soil type and sampling depth. Global Change Biology 18: 2233-2245.
CrossRef |
Gscholar
(68)
Wiesmeier M, Hübner R, Barthold F, Spörlein P, Geuß U, Hangen E, Reischl A, Schilling B, Von Lützow M, Kögel-Knabner I (2013)Amount, distribution and driving factors of soil organic carbon and nitrogen in cropland and grassland soils of southeast Germany (Bavaria). Agriculture, Ecosystems and Environment 176: 39-52.
CrossRef |
Gscholar
(69)
Yang JC, Huang JH, Pan QM, Tang JW, Han XG (2004)Long-term impacts of land-use change on dynamics of tropical soil carbon and nitrogen pools. Journal of Environmental Science (China) 16: 256-261.
Gscholar
(70)
Zenga X, Zhang W, Cao J, Liua X, Shen H, Zhao X (2014)Changes in soil organic carbon, nitrogen, phosphorus, and bulk density after afforestation of the “Beijing-Tianjin Sandstorm Source Control” program in China. Catena 118: 186-194.
CrossRef |
Gscholar
(71)
Zhang CS, McGrath D (2003)Geostatistical and GIS analyses on soil organic carbon concentrations in grassland of southeastern Ireland from two different periods. Geoderma 119: 261-275.
CrossRef |
Gscholar
(72)
Zhang GL (2010)Changes of soil labile organic carbon in different land uses in Sanjiang Plain, Heilongjiang Province. Chinese Geographical Science 20: 139-143.
CrossRef |
Gscholar
(73)
Zhang LH, Xie ZK, Zhao RF, Wang YJ (2012)The impact of land use change on soil organic carbon and labile organic carbon stocks in the Longzhong Region of Loess Plateau. Journal of Arid Land 4: 241-250.
CrossRef |
Gscholar
(74)
Zhao P, Shao MA, Omran W, Amer AM (2011)Effects of erosion and deposition on particle size distribution of deposited farmland soils on the Chinese Loess Plateau. Revista Brasileira de Ciência do Solo 35: 2135-2144.
CrossRef |
Gscholar
(75)
Zink JA, Farshad A (1995)Issues of sustainability and sustainable land management. Canadian Journal of Soil Science 75: 407-412.
CrossRef |
Gscholar
