Applied Soil Chemistry. Группа авторов

Applied Soil Chemistry - Группа авторов


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Zare Sheibani, A., Ghashghaei, S., Kokabi, R., Mobasheri, F., Comparison of the effect of diclofenac suppository and lidocaine-prilocaine cream (XYLA cream) on pain relief after episiotomy in natural Childbirth. Sci. Rep., 2021.

      8. Zare, A., Ghashghaei, S., Poormantaseri, Z., Sharafi, M., Prevalence and factors related to arbitrary drug use in Fasa: Case study. Br. J. Clin. Pharmacol., 2021.

      9. Rezaei Dehshibi, R., Sadatshojaie, A., Mohebbi, A., Riazi, M., A new insight into pore body filling mechanism during waterflooding in a glass micro-model. Chem. Eng. Res. Des.: Transactions of the Institution of Chemical Engineers Part A, 151, 100–107, 2019.

      10. Wilcox, J., Renforth, P., Kraxner, F. (eds.), The Role of Negative Emission Technologies in Addressing Our Climate Goals. Lausanne, Frontiers Media SA, https://scholar.google.com/scholar_url?url=https://www.frontiersin.org/research-topics/9752/pdf%3Futm_source%3Dfweb%26utm_medium%3D-nblog%26utm_campaign%3Dba-sci-ebook--20200300&hl=en&sa=T&oi=gsb-gga&ct=res&cd=0&d=16349358176583991556&ei=ROT-X9fXEYfPmAG-w14KwCw&scisig=AAGBfm1dUf9bJFQ1f8RVUxAXc4tQNKEVNQ, 2020.

      11. Batjes, N.H., Total carbon and nitrogen in the soils of the world. Eur. J. Soil Sci., 65, 1, 10–21, 2014.

      12. Lal, R., Soil carbon stocks under present and future climate with specific reference to European ecoregions. Nutr. Cycling Agroecosyst., 81, 2, 113–127, 2008.

      13. Lal, R., Follett, R., Kimble, J., Achieving soil carbon sequestration in the United States: a challenge to the policy makers. Soil Sci., 168, 12, 827–845, 2003.

      14. Hester, R.E. and Harrison, R.M. (Eds.), Carbon capture: Sequestration and storage (Vol. 29). Royal Society of Chemistry, https://pubs.rsc.org/en/content/ebook/978-1-84755-917-3, 2010.

      15. Anderson, M.C., PRO. J. Gynecol. Surg., 7, 3, 191–194, 1991.

      16. Schlesinger, W.H. and Andrews, J.A., Soil respiration and the global carbon cycle. Biogeochemistry, 48, 1, 7–20, 2000.

      17. Hayes, M.H. and Clapp, C.E., Humic substances: considerations of compositions, aspects of structure, and environmental influences. Soil Sci., 166, 11, 723–737, 2001.

      18. Post, W.M. and Kwon, K.C., Soil carbon sequestration and land-use change: processes and potential. Global Change Biol., 6, 3, 317–327, 2000.

      19. He, Y., Trumbore, S.E., Torn, M.S., Harden, J.W., Vaughn, L.J., Allison, S.D., Randerson, J.T., Radiocarbon constraints imply reduced carbon uptake by soils during the 21st century. Science, 353, 6306, 1419–1424, 2016.

      20. van Diemen, R., AI Annex I: Glossary, in: Climate Change and Land, p. 803, 2019.

      21. Halldorsson, G., Sigurdsson, B.D., Finér, L., Gudmundsson, J., Kätterer, T., Singh, B.R., Vesterdal, L., Arnalds, A., Soil Carbon Sequestration–for climate, food security and ecosystem services, Nordic Council of Ministers, 2015.

      22. Sun, X., Tang, Z., Ryan, M.G., You, Y., Sun, O.J., Changes in soil organic carbon contents and fractionations of forests along a climatic gradient in China. For. Ecosyst., 6, 1, 1, 2019.

      23. Alexandrov, G.A. and Matsunaga, T., Normative productivity of the global vegetation. Carbon Balance Manage., 3, 1, 8, 2008.

      24. Smith, J., Similar response of labile and resistant soil organic matter pools to changes in temperature. Nature, 433, 57–59, 2005.

      25. Zhang, H. and Zhou, Z., Recalcitrant carbon controls the magnitude of soil organic matter mineralization in temperate forests of northern China. For. Ecosyst., 5, 1, 17, 2018.

      26. Paustian, K., Andren, O., Janzen, H., Lal, R., Smith, P., Tian, G., Tiessen, H., Van Noordwijk, M., Woomer, P., Agricultural soils as a sink to mitigate CO2 emissions. Soil Use Manage., 13, 230–244, 1997.

      27. Lal, R. and Kimble, J., Conservation tillage for carbon sequestration. Nutr. Cycling Agroecosyst., 49, 1–3, 243–253, 1997.

      28. Bellarby, J., Foereid, B., Hastings, A., Cool Farming: Climate impacts of agriculture and mitigation potential, Greenpeace, https://eprints.lancs.ac.uk/id/eprint/68831/1/1111.pdf, 2008.

      29. Alvarez, R., A review of nitrogen fertilizer and conservation tillage effects on soil organic carbon storage. Soil Use Manage., 21, 1, 38–52, 2005.

      30. Lowe, A., Beasley, B., Berly, T., Carbon Capture and Storage (CCS) in Australia, in: Issues in Environmental Science and Technology, vol. 29, p. 65, 2010.

      31. Ewing, S., Consuming online in Australia, in: Urban consumption, p. 105– 122, 2011.

      33. Conant, R.T., Easter, M., Paustian, K., Swan, A., Williams, S., Impacts of periodic tillage on soil C stocks: A synthesis. Soil Tillage Res., 95, 1–2, 1–10, 2007.

      34. Buhre, B.J., Elliott, L.K., Sheng, C., Gupta, R.P., Wall, T.F., Oxy-fuel combustion technology for coal-fired power generation. Prog. Energy Combust. Sci., 31, 4, 283–307, 2005.

      35. Hutchinson, J., The record of peat wastage in the East Anglian fenlands at Holme Post, 1848-1978 AD. J. Ecol., 51, 68, 229–249, 1980.

      36. Heathwaite, A.L., Disappearing peat-regenerating peat? The impact of climate change on British peat-lands. Geog. J., 159, 203–208, 1993.

      37. Lal, R., Climate change and food security soil carbon sequestration impacts. Science, 304, 1623, 2004.

      38. Lal, R., Soil erosion and carbon dynamics, Elsevier, https://www.sciencedirect.com/science/article/pii/S0167198704001898, 2005.

      39. Wardle, D.A., Islands as model systems for understanding how species affect ecosystem properties. J. Biogeogr., 29, 5–6, 583–591, 2002.

      40. Holden, J., Shotbolt, L., Bonn, A., Burt, T., Chapman, P., Dougill, A., Fraser, E., Hubacek, K., Irvine, B., Kirkby, M., Environmental change in moorland landscapes. Earth-Sci. Rev., 82, 1–2, 75–100, 2007.

      41. Harrison, A., Howard, P., Howard, D., Howard, D., Hornung, M., Carbon storage in forest soils. Forestry: An International Journal of Forest Research, 68, 4, 335–348, 1995.

      42. Chapman, S., Bell, J., Donnelly, D., Lilly, A., Carbon stocks in Scottish peatlands. Soil Use Manage., 25, 2, 105–112, 2009.

      43. Burges, C.J., A tutorial on support vector machines for pattern recognition. Data Min. Knowl. Discovery, 2, 2, 121–167, 1998.

      44. Liski, J., Perruchoud, D., Karjalainen, T., Increasing carbon stocks in the forest soils of western Europe. For. Ecol. Manage., 169, 1–2, 159–175, 2002.

      45. Paustian, K., Larson, E., Kent, J., Marx, E., Swan, A., Soil C sequestration as a biological negative emission strategy, in: The Role of Negative Emission Technologies in Addressing Our Climate Goals, 2020.

      46. Song, X., Pan, G., Zhang, C., Zhang, L., Wang, H., Effects of biochar application on fluxes of three biogenic greenhouse gases: a meta-analysis. Ecosyst. Health Sustainability, 2, 2, e01202, 2016.

      47. Crews, T.E. and Rumsey, B.E., What agriculture can learn from native ecosystems in building soil organic


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