Effect of Environmental and Managerial Factors on Range Condition in Semi-Arid Mountainous Area of Chahar Bagh in Northeastern Iran
Subject Areas : Analysis and EvaluationKhosro Shahidi Hamedani 1 , Ali Tavili 2 , Seyed Akbar Javadi 3 , Mohammad Jafary 4 , Mohammad Tahmoures 5
1 - Department of Forest, Range and Watershed Management, Faculty of Natural Resources and Environment, Science and Research Branch, Islamic Azad university, Tehran, Iran
2 - Department of Reclamation of Arid and Mountainous Regions, Natural Resources Faculty, University of Tehran, Karaj, Iran
3 - Department of range management, Science and Research Branch Islamic Azad University, Tehran, Iran.
4 - Department of Reclamation of Arid and Mountainous Regions, Natural Resources Faculty, University of Tehran, Karaj, Iran
5 - Soil Conservation and Watershed Management Department, Zanjan Agricultural and Natural Resources Research Center, AREEO, Zanjan
Keywords:
Abstract :
Akpa, S.I.C., Odeh, I.O.A., Bishop, T.F.A., Hartemink, A.E. and Amapu, I.Y., 2016. Total soil organic carbon and carbon sequestration potential in Nigeria. Geoderma, 271: 202–215.
Al-Bukhari, A., Hallett, S. and Brewer, T., 2018. A review of potential methods for monitoring rangeland degradation in Libya. Pastoralism, 8: 1–14.
Angassa, A., 2014. Effects of grazing intensity and bush encroachment on herbaceous species and rangeland condition in southern Ethiopia. Land Degradation & Development, 25: 438–451.
Baars, R.M.T., Chileshe, E.C., Kalokoni, D.M., 1997. Range condition in high cattle density areas in. Tropical Grasslands, 31: 569–573.
Babaeian, E., Sadeghi, M., Jones, S.B., Montzka, C., Vereecken, H. and Tuller, M., 2019. Ground, proximal, and satellite remote sensing of soil moisture. Reviews of Geophysics, 57: 530–616.
Bhunia, G.S., Shit, P.K., Pourghasemi, H.R., 2017. Soil organic carbon mapping using remote sensing techniques and multivariate regression model. Geocarto International, 34(2): 215-226.
Chaichi, M.R., Saravi, M.M. and Malekian, A., 2005. Effects of livestock trampling on soil physical properties and vegetation cover (case study: Lar Rangeland, Iran). International Journal of Agriculture and Biology, 7: 904–908.
Dashti, M., Mirdavoudi, H., Ghasemi Arian, A. and Azizi, N., 2021. Effects of Topography and Soil Variables on Abundance of Onobrychis chorassanica Bunge. in Kardeh and Kurtian Rangelands, Mashhad, Iran. Journal of Rangeland Science, 11: 1–10.
Davy, M.C. and Koen, T.B., 2013. Variations in soil organic carbon for two soil types and six land use in the Murray Catchment, New South Wales, Australia. Soil Research, 51(8): 631-644.
Farsi, R., Yeganeh, H., Hosseinalizadeh, M. and Azimi, M., 2021. Estimating the economic value of the role of vegetation in controlling soil erosion (Case Study: Kechik Watershed). Journal of Water and Soil Conservation, 27: 137–152.
Fu, B.-J., Zhang, Q.J., Chen, L.D., Zhao, W.-W., Gulinck, H., Liu, G.B., Yang, Q.K. and Zhu, Y.G., 2006. Temporal change in land use and its relationship to slope degree and soil type in a small catchment on the Loess Plateau of China. Catena, 65: 41–48.
Funk, F.A., Peter, G., Leder, C. V, Loydi, A., Kröpfl, A. and Distel, R.A., 2018. The impact of livestock grazing on the spatial pattern of vegetation in north-eastern Patagonia, Argentina. Plant Ecology & Diversity, 11: 219–227.
Gholizadeh, A., Žižala, D., Saberioon, M. and Borůvka, L., 2018. Soil organic carbon and texture retrieving and mapping using proximal, airborne and Sentinel-2 spectral imaging. Remote Sensing of Environment, 218: 89-103.
Ghosh, P.K., Mahanta, S.K., Mandal, D., Mandal, B. and Ramakrishnan, S., 2019. Carbon Management in Tropical and Sub-Tropical Terrestrial Systems. England, 686 pages.
Goldin, A., 2001. Relationships between aspect and plant distribution on calcareous soils near Missoula, Montana, 75(3): 197-203.
Haider, M.S., Maclaurin, A., Chaudhry, A.A., Mushtaque, M. and Ullah, S., 2011. Effect of grazing systems on range condition in Pabbi Hills Reserve Forest, Kharian, Punjab, Pakistan. Chilean Journal of Agricultural Research, 71(4): 560.
Han, X., Zhao, F., Tong, X., Deng, J., Yang, G., Chen, L. and Kang, D., 2017. Understanding soil carbon sequestration following the afforestation of former arable land by physical fractionation. Catena, 150: 317–327.
Jafari, M., Zare Chauhooki, M.A., Azarnivand, H., Baghestani, M.N. and Zahedi, A.G.H., 2002. Relationships between Poshtkouh rangeland vegetative of Yazd province and soil physical and chemical characteristics using multivariate analysis methods, Journal of water and soil conservation, 9(1): 419-433. (In Persian)
Jensen, J.L., Schjønning, P., Watts, C.W., Christensen, B.T., Peltre, C. and Munkholm, L.J., 2019. Relating soil C and organic matter fractions to soil structural stability. Geoderma, 337: 834–843.
Khaleghi, M.R., Aeinebeygi, S., 2016. An assessment of biennial enclosure effects on range production, condition and trend (case study: Taftazan rangeland, Shirvan). International Journal of Forest, Soil and Erosion (IJFSE), 6: 33–40.
Khan, M., Khan, S.M., Ilyas, M., Alqarawi, A.A., Ahmad, Z. and Abd_Allah, E.F., 2017. Plant species and communities assessment in interaction with edaphic and topographic factors; an ecological study of the mount Eelum District Swat, Pakistan. Saudi journal of biological sciences, 24: 778–786.
Kilaneh, E.G. and Vahabi, M.R., 2012. The Effect of Some Soil Characteristics on Range Vegetation Distribution in Central Zagros, Iran. JWSS-Isfahan University of Technology, 16: 245–258. (In Persian)
Kohestani, N., and Yeganeh, H., 2016. Study the effects of range management plans on vegetation of summer rangelands of Mazandaran Province, Iran. Journal of Rangeland Science, 6: 195–204.
Kong, T.M., Marsh, S.E., van Rooyen, A.F., Kellner, K. and Orr, B.J., 2015. Assessing rangeland condition in the Kalahari Duneveld through local ecological knowledge of livestock farmers and remotely sensed data. Journal of Arid Environments, 113: 77–86.
Kumar, N., 2018. Geospatial Mapping of Soil Organic Carbon Using Regression Kriging and Remote Sensing. Journal of the Indian Society of Remote Sensing, 46: 705–716.
Ladoni, M., Ali, Æ.H., Sayed, B.Æ., Alavipanah, K., 2010. Estimating soil organic carbon from soil reflectance : a review; Precision Agriculture, 11(1):82-99.
Lee, H., Seo, D.J. and Koren, V., 2011. Assimilation of streamflow and in situ soil moisture data into operational distributed hydrologic models: Effects of uncertainties in the data and initial model soil moisture states. Advances in water resources, 34: 1597–1615.
Liu, S., Hou, X., Yang, M., Cheng, F., Coxixo, A., Wu, X. and Zhang, Y., 2018. Factors driving the relationships between vegetation and soil properties in the Yellow River Delta, China. Catena, 165: 279–285.
Mahmoudi, S., Khoramivafa, M., Hadidi, M., Jalilian, N. and Bagheri, A., 2021. Overgrazing is a Critical Factor Affecting Plant Diversity in Nowa-Mountain Rangeland, West of Iran. Journal of Rangeland Science, 11: 141–151.
Martínez-Antúnez, P., Wehenkel, C., Ciro Hernández-Díaz, J., González-Elizondo, M., Javier Corral-Rivas, J. and Pinedo-Álvarez, A., 2013. Effect of climate and physiography on the density of tree and shrub species in northwest Mexico. Polish Journal of Ecology, 61(2): 283-295.
Mir, D.H.R., Zahedi, H.A., Shokouhi, M. and Torkan, J., 2006. Relationships between the most important ecological factors and rangeland vegetative using multivariate data analysis methods (case study: south of markazi province), 3(24): 201-211. (In Persian)
Mohsennezhad, M., Shokri, M., Zali, H. and Jafarian, Z., 2010. The effects of soil properties and physiographic factors on plant communities distribution (Case study: Behrestagh Rangeland, Haraz). Rangeland, 4(2): 262-275. (In Persian)
Moles, R., Hayes, K., O’Regan, B. and Moles, N., 2003. The impact of environmental factors on the distribution of plant species in a Burren grassland patch: implications for conservation, in: Biology and Environment: Proceedings of the Royal Irish Academy, 103(3): 139-145.
Oñatibia, G.R., Amengual, G., Boyero, L. and Aguiar, M.R., 2020. Aridity exacerbates grazing-induced rangeland degradation: A population approach for dominant grasses. Journal of Applied Ecology, 57:1999–2009.
Paz-Kagan, T., Ohana-Levi, N., Herrmann, I., Zaady, E., Henkin, Z. and Karnieli, A., 2016. Grazing intensity effects on soil quality: A spatial analysis of a Mediterranean grassland. Catena, 146: 100–110.
Ruvuga, P.R., Wredle, E., Nyberg, G., Hussein, R.A., Masao, C.A., Selemani, I.S., Sangeda, A.Z. and Kronqvist, C., 2021. Evaluation of rangeland condition in miombo woodlands in eastern Tanzania in relation to season and distance from settlements. Journal of Environmental Management. 290: 112635.
Plieninger, T. and Huntsinger, L., 2018. Complex rangeland systems: integrated social-ecological approaches to silvopastoralism. Rangeland Ecology & Management, 71: 519–525.
Ryals, R. and Silver, W.L., 2013. Effects of organic matter amendments on net primary productivity and greenhouse gas emissions in annual grasslands. Ecological Applications, 23(1): 46-59
Sabahaddin, Ü. and Dedebali, M., 2010. Ecological interpretations of rangeland condition of some villages in K{\i}r{\i}kkale province of Turkey. Turkish Journal of Field Crops, 15: 43–49.
Sangeda, A.Z. and Maleko, D.D., 2018. Rangeland condition and livestock carrying capacity under the traditional rotational grazing system in northern Tanzania. Livestock Research for Rural Development, 1: 1-7.
Schuman, G. E., Janzen, H. H. and Herrick, J. E., 2002. Soil carbon dynamics and potential carbon sequestration by rangelands. Environmental pollution, 116(3): 391-396.
Shahriary, E., Palmer, M.W., Tongway, D.J., Azarnivand, H., Jafari, M. and Saravi, M.M., 2012. Plant species composition and soil characteristics around Iranian biospheres. Journal of Arid Environments, 82: 106–114.
Sheikhzadeh, A., Bashari, H., Esfahani, M.T., Matinkhah, S. and Soleimani, M., 2019. Investigation of rangeland indicator species using parametric and non-parametric methods in hilly landscapes of central Iran. Journal of Mountain Science, 16: 1408–1418.
Shokrollahi, S.H., Moradi, H.R. and Dianati Tilaki, Gh.A., 2013. A survey of some environmental factors affecting on distribution of Agropyron cristatum (Case study: Polur Summer rangelands, mazandaran province). Watershed Management Researches (Pajouhesh-Va-Sazandegi), 25(4): 111-119. (In Persian)
Taghipour, M., Ayoubi, S. and Khademi, H., 2011. Contribution of lithologic and anthropogenic factors to surface soil heavy metals in western Iran using multivariate geostatistical analyses. Soil and Sediment Contamination: An International Journal, 20: 921–937.
Tamartash, R., Yousefian, M., Tatian, M.R. and Ehsani, M., 2010. Vegetation analysis in rangelands of Lasem, Iran. Agriculture and Environment Science, 7: 397–401.
Trollope, W., van Wilgen, B., Trollope, L.A., Govender, N. and Potgieter, A.L., 2014. The long-term effect of fire and grazing by wildlife on range condition in moist and arid savannas in the Kruger National Park. African Journal of Range & Forage Science, 31: 199–208.
Vahabinia, F., Pirdashti, H. and Bakhshandeh, E., 2019. Environmental factor’s effect on seed germination and seedling growth of chicory (Cichorium intybus L.) as an important medicinal plant. Acta Physiologiae Plantarum, 41: 1–13.
Vanderpost, C., Ringrose, S., Matheson, W. and Arntzen, J., 2011. Satellite based long-term assessment of rangeland condition in semi-arid areas: An example from Botswana. Journal of Arid Environments, 75: 383–389.
Veen, G.F., Sundqvist, M.K. and Wardle, D.A., 2015. Environmental factors and traits that drive plant litter decomposition do not determine home-field advantage effects. Functional Ecology, 29: 981–991.
Wang, J., Wang, H., Cao, Y., Bai, Z. and Qin, Q., 2016. Effects of soil and topographic factors on vegetation restoration in opencast coal mine dumps located in a loess area. Scientific Reports, 6(1): 1-11.
Wang, S., Gao, Y., Li, Q., Gao, J., Zhai, S., Zhou, Y. and Cheng, Y., 2019. Long-term and inter-monthly dynamics of aquatic vegetation and its relation with environmental factors in Taihu Lake, China. Science of the Total Environment, 651: 367–380.
Wang, Y., Chu, L., Daryanto, S., Lü, L., Ala, M. and Wang, L., 2019. Sand dune stabilization changes the vegetation characteristics and soil seed bank and their correlations with environmental factors. Science of the Total Environment, 648: 500–507.
Van der Westhuizen, H.C., Snyman, H.A. and Fouché, H.J., 2005. A degradation gradient for the assessment of rangeland condition of a semi-arid sourveld in southern Africa. African Journal of Range and Forage Science, 22(1): 47-58.
Wetterlind, J., Stenberg, B. and Söderström, M., 2008. The use of near infrared (NIR) spectroscopy to improve soil mapping at the farm scale, in: Precision Agriculture, 9(1): 57-69.
Zhang, J.T. and Dong, Y., 2010. Factors affecting species diversity of plant communities and the restoration process in the loess area of China. Ecological Engineering, 36: 345–350.
