References
- Abreu, C.A., M. F. Abreu, B. Raij, O. C. Bataglia, and J. C. Andrade. 1994. Extraction of b from soil by microwave Heating for icp-aes determination. Communications in Soil Science Plant Analysis 25: 3321–3333.
- Alkan, M., M. Dogan, and H. Namli. 2004. Dissolution kinetics and mechanism of ulexite in oxalic acid Solutions. Industrial Engineering Chemistry Resource 43: 1591–1598.
- Antoniadis, V., C. Chatzissavvidis, and A. Paparnakis. 2013. Boron behavior in apple plants in acidic and limed soil. Journal of Plant Nutrition and Soil Science 176: 267–272.
- Berger, K.C., and E. Truog 1939. Boron determination in soils and plants. Industrial Engineering Chemistry 11: 540–544
- Bolan, N. S., D. C. Adriano and D. Curtin. 2003. Soil acidification and liming interactions with nutrient and heavymental transformation and bioavailability. Advances in Agronomy 78: 215–272.
- Bussoni, A., and L. Estraviz 2010. Private valuation of carbon sequestration in forest plantations. Ecological Economics 69: 451–458.
- Chanan, M., A. Iriany 2014. Estimating carbon storage on teak (Tectona grandis Linn. F). Environmental Earth Science 4: 10–17.
- Chanson, M., and F. Millero. 2006. The solubility of boric acid in electrolyte solutions. Journal of Solution Chemistry 35: 689–703.
- Chaudhary, D. R., and L. M. Shukla. 2004. Evaluation of extractantes for predicting availability of boron to mustard in arid soils of India. Communication Soil Science and Plant Analysis 35: 267–283.
- Demirkıran, N. 2008. A study on dissolution of ulexite in ammonium acetate solutions. Chemical Engineering Journal 141: 180–186.
- Embrapa – Empresa Brasileira de Pesquisa Agropecuária. 1997. Centro Nacional de Pesquisa de Solos. Manual de métodos de análise de solos [Soil Analysis Handbook]. Rio de Janeiro: EMBRAPA–CNPS.
- Ferreira, G. B., R. Fontes, M. Fontes, and V. Alvarez. 2001. Influência de algumas características do solo nos teores de boro disponível [Influence of some soil characteristics in levels of available boron]. Revista Brasileira de Ciencia do Solo 25: 93–103.
- Geographic Institute Agustín Codazzi. 2006. Analytical methods of soil laboratory. Bogotá: IGAC.
- Goldberg, S., D. L. Corwin, P. J. Shouse, and D. Suarez. 2005. Prediction of boron adsorption by field samples of diverse textures. Soil Science Society of American Journal 69: 1379–1388.
- Goldberg, S., and H. Forster. 1991. Boron sorption on calcareous soils and reference calcites. Soil Science 152: 304–310.
- Goldberg, S., M. L. Scott, and D. L. Suarez. 2000. Predicting boron adsorption by soils using soil chemical parameters in the constant capacitance model. Soil Science Society of American Journal 64: 1356–1363.
- Goldberg, S., P. J. Shouse, S. M. Lesch, C. Grieve, J. A. Poss, H. S. Forster, and D. L. Suarez. 2002. Soil boron extractions as indicators of boron content of field-grown crops. Soil Science 167: 720–728.
- Goldberg, S., and D. L. Suarez. 2011. Release of native and amended boron from arid zone soils after varying incubation times. Soil Science 176: 213–217.
- IGAC (Geographic Institute Agustin Codazzi). 2006. Analytical methods of soil laboratory. Bogotá, Colombia: IG.
- Huang, L., J. Liu, Q. Shao, and X. Xu. 2012. Carbon sequestration by forestation across China: Past, present, and future. Renewable and Sustainable Energy Reviews 16: 1291–1299.
- Kaul, M., G. Mohren, and V. Dadhwal. 2010. Carbon storage and sequestration potential of selected tree species in India. Mitigation and Adaptation Strategies for Global Change 15: 489–510.
- Kraenzel, M., A. Castillo, T. Moore, and C. Potvin. 2003. Carbon storage of harvest-age teak (Tectona grandis) plantations. Panama Forest Ecology and Management 173: 213–225.
- Matsi, T., V. Antoniadis, and N. Barbayiannis. 2000. Evaluation of the NH4HCO3-DTPA soil test for assessing boron availability to wheat. Communications in Soil Science and Plant Analysis 31: 669–678.
- Niaz, A., W. Ahmad, M. Zia, and A. Ranjha. 2011. Relative efficiency of different extractants for available boron estimation in alkaline calcareous soils. Communications in Soil Science and Plant Analysis 42: 1934–1944.
- Offiah, O., J. H. Axley. 1993. Soil testing for boron on acid soils. In: Boron and Its Role in Crop Production, ed. U. C. Gupta, pp. 105–123. Boca Raton, FL: CRC Press.
- Sarkar, D., D. Kumar, R. Das, and B. Mandal. 2014. Removal of organic matter and oxides of iron and manganese from soil influences boron adsorption in soil. Geoderma 214: 213–216.
- Shiffler, A. K., V. D. Jolley, J. E. Christopherson, B. L. Webb. 2005. Pressurized hot water and DTPA-sorbitol as viable alternatives for soil boron extraction. II. Correlation of soil extraction to responses of boron – fertilized alfalfa. Communications in Soil Science and Plant Analysis 36: 2189–2207.
- Silva, F. R., and H. R. Ferreira. 1998. Avaliação de extratores de boro em solos do estado do ceará [Review of boron extractors in soils of the state of Ceará]. Revista Brasileira de Ciencia do Solo 22: 471–478.
- Sreejesh, K., T. Thomas, P. Rugmini, K. Prasanth, and P. Kripa. 2013. Carbon sequestration potential of teak (Tectona grandis) plantations in Kerala. Resource Journal Recent Science 2: 167–170.
- USDA. 2006. Soil Taxonomy. A Basic System of Soil Classification for Making and interpreting soil survey. Agriculture Handbook. Washington, DC: U.S. Government Printing Office.
- Wolf, B. 1974. Improvements in the azomethine–H method for the determination of boron. Soil Science and Plant Analysis 5: 39–44.
- Zhao, G., L. Zhang, J. Wang, J. Li, Q. Qian, and X. Pan. 2011. Synthesis of thorn–like Ca2B2O5·H2O by hydrothermal method. Bulletin Material Science 34: 1197–1199.