https://orcid.org/0000-0002-8294-8449
References
- Abedin Mian MJ, Blume HP, Bhuiyan ZH, Eaqub M. 1991. Water and nutrient dynamics of a paddy soil of Bangladesh. J Plant Nutri Soil Sci. 154:93–99.
- Baboo P. 2016. Sulfur coated urea. Vijaipur (India): National Fertilisers Ltd.
- Balota M. 2014. Peanut (Arachis hypogaea L.). Nutrition. 5. accessed 2019 Sept 10. https://vtechworks.lib.vt.edu/handle/10919/56116
- Banwart WL, Bremner JM. 1975. Identification of sulfur gases evolved from animal manures. J Environ Qual. 4:363–366.
- Barrow NJ. 1960. A comparison of the mineralization of nitrogen and of sulfur from decomposing organic materials. Aust J Agric Res. 11(6):960–969. doi:10.1071/AR9600960.
- Bell RW. 2008. Sulfur and the production of rice in wetland and dryland ecosystems. In: Jez J, editor. Sulfur: A missing link between soils, crops and nutrition. Agron Mono. 50. Madison (WI): ASA-CSSA-SSSA; p. 97–218.
- Bell RW, Hoang MT, Summers R, Parsons D, Mackay A 2015b. Opportunities and priorities for further investment on improving the productivity and sustainability of crop and livestock systems on sands of South-central Coastal Vietnam. In: Mann S, Webb MC, Bell RW, editors. Sustainable and profitable crop and livestock systems for south-central coastal Vietnam. ACIAR Proceedings 143; Australia. p. 228–240.
- Bell RW, Nguyen QC, Phan TC 2015a. Soil types, properties and limiting factors in south-central coastal Vietnam. In Mann S, Webb MC, Bell RW, editors. Sustainable and profitable crop and livestock systems for south-central coastal Vietnam. ACIAR Proceedings 143; Australia. p. 42–60.
- Bigham JM. 1996. Methods of soil analysis, part 3: chemical methods. Madison (Wisconsin): Soil Science Society of America Inc, American Society of Agronomy Inc.
- Blair GJ. 1979. Sulfur in the tropics. Tech. Bull. 12. Alabama (USA): IFDC. Muscle Shoal.
- Blair GJ 2015. Development of a soil sulfur test and sulfur enhanced fertilisers from the soil up. Proceedings of the 17th ASA Conference on Building Productive, Diverse and Sustainable Landscapes, Sept 20–24; Hobart. Australia, accessed 2020 Jun 10:[10 p.]. http://www.agronomy2015.com.au.
- Blair GJ, Chinoim N, Lefroy RDB, Anderson GC, Crocker GJ. 1991. A sulfur soil test for pastures and crops. Aust J Soil Res. 29:619–626. doi:10.1071/SR9910619.
- Blair GJ, Lefroy RDB 1987. Sulfur cycling in tropical soils and the agronomic impact of increasing use of S free fertilisers, increased crop production and burning of crop residues. Proceedings of the Symposium on Fertiliser Sulfur Requirements and Sources in Developing Countries of Asia and the Pacific; Jan 26–30; Bangkok. Thailand. p. 12–17.
- Camberato J, Casteel S 2017. Sulfur deficiency. Soil Fertility Update, accessed 2019 Oct 10:[6 p]. https://www.agry.purdue.edu/ext/corn/news/timeless/sulfurdeficiency.pdf.
- Chaubey AK, Singh SB, Kaushik MK. 2000. Response of groundnut (Arachis hypogaea) to source and level of sulfur fertiliser in mid western plants of Utter Pradesh. Ind J Agron. 45:166–169.
- Chaudhary TA, Cornfield AH. 1966. The determination of total sulfur in soil and plant material. Analyst. 91:528–531. doi:10.1039/an9669100528.
- Chien SH, Gearhart MM, Villagarcía G. 2011. Comparison of ammonium sulfate with other nitrogen and sulfur fertilisers in increasing crop production and minimizing environmental impact: A review. Soil Sci. 176(7):327–335. doi:10.1097/SS.0b013e31821f0816.
- Chien SH, Prochnow LI, Cantarella H. 2009. Recent developments of fertiliser production and use to improve nutrient efficiency and minimize environmental impacts. Adv Agron. 102:267–322.
- Degryse F, Silva RCD, Baird R, Beyrer T, Below F, McLaughlin MJ. 2018. Uptake of elemental or sulfate-S from fall- or spring-applied co-granulated fertiliser by corn-A stable isotope and modeling study. Field Crop Res. 221:322–332. doi:10.1016/j.fcr.2017.07.015.
- Dick AW, Kost D, Chen L, 2008. Availability of sulfur to crops from soil and other sources. accessed 2019 Sept 20:[23 p.]. https://www.researchgate.net/publication/302962240.
- Do DT, Hoang TTH, Do TN, Surender M, Bell R. 2017. Nghien cuu anh huong cua lieu luong va dang luu huynh den nang suat lac tren dat cat bien tinh Binh Dinh [Study on effect of rate and type of sulfur on peanut yield in sandy soil of Binh Dinh province]. J Agric Rural Dev. 3:74–80. Vietnamese.
- Ericksen PJ. 2008. Conceptualizing food systems for global environmental change research. Glob Environ Change. 18:234–245. doi:10.1016/j.gloenvcha.2007.09.002.
- Eriksen J. 1996. Incorporation of S into soil organic matter in the field as determined by the natural abundance of stable isotopes. Biol Fert Soils. 22:149–155. doi:10.1007/BF00384447.
- Eriksen J, Kristensen T. 2002. The effect of catch crops on sulphate leaching and availability of S in the succeeding crop on sandy loam soil in Denmark. Agri Ecosys Environ. 90(3):247–254. doi:10.1016/S0167-8809(01)00214-6.
- Fishman MJ, Pyen G 1979. Determination of selected anions in water by ion chromatography. Report No.: USGS/WRI 79–101, accessed 2015 Jan 20:[30 p.]. https://pubs.er.usgs.gov/publication/wri79101
- Franzen D, Grant CA. 2008. Sulfur response based on crop, source, and landscape position. In: Jez J, editor. Sulfur: A missing link between soils, crops and nutrition. Agron Mono. 50. Madison (WI): ASA-CSSA-SSSA; p. 105–116.
- Grant CA, Johnston AM, Clayton GW. 2003. Sulfur fertiliser and tillage effects on early season sulfur availability and N:S ratio in canola in western Canada. Can J Soil Sci. 83:451–463. doi:10.4141/S02-046.
- Haque SA 1995. Sulfur balance for rice soil. In: Hussian MS, Imamul Huq SM, Anwar Iqbal M, Khan TH, editors. Improving soil management for intensive cropping in the tropics and sub-tropics. Proceedings of the Inter-Congress Conference of Commission IV; Dec 1–3; Dhaka. Bangladesh: Agricultural Research Council (BARC). p. 73–76.
- Hoang TTH, Do DT, Do TN, Hoang V, Mann S, Bell RW 2019a. Improving water and nutrient use efficiency of crops through use of technologies. Paper presented at: VACI 2019. Proceedings of Vietnam International water weeks-VACI; Mar 22–25; Hanoi, Vietnam.
- Hoang TTH, Do DT, Do TN, Mann S, Bell RW. 2019b. Partial potassium balance under irrigated peanut crops on sands in a tropical monsoonal climate. Nutr Cycling Agroecosyst. 114:41–83. doi:10.1007/s10705-019-09993-0.
- Hoang TTH, Do DT, Nguyen VV, Mann S, Bell RW 2015. Improving the value and effectiveness of manure. In: Mann S, Webb MC, Bell RW, editors. Sustainable and profitable crop and livestock systems for south-central coastal Vietnam. ACIAR Proceedings 143; Australia. p. 91–99.
- Hoang TTH, Do DT, Surender M, Richard B. 2012. Nghien cuu anh huong cua cac dang phan huu co va phuong phap bon den nang suat lac tren dat cat huyen Phu Cat, tinh Binh Dinh [Study on effect of types and application methods of organic fertiliser on peanut yield in sandy soil of Phu Cat district, Binh Dinh province]. J Soil Sci. 39:37–41. Vietnamese.
- Howeler RH 1985. Mineral nutrition and fertilization of cassava. In: Cassava-Research, Production and Utilization. UNDP-CIAT Cassava program; Cali, Colombia. p. 249–320.
- Jackson GD. 2000. Effects of N and S on canola yield and nutrient uptake. Agron J. 92:644–649. doi:10.2134/agronj2000.924644x.
- Kanwar JS, Mudahar MS. 1984. Fertiliser sulfur and food production. Martinus: Bordrecht/Bostin/Lancster.
- Kirchmann H, Pichlmayer F, Gerzabek MH. 1996. Sulfur balances and sulfur-34 abundance in a long-term fertiliser experiment. Soil Sci Soc Am J. 60:174–178. doi:10.2136/sssaj1996.03615995006000010028x.
- Kirchmann H, Witter E. 1992. Composition of fresh, aerobic and anaerobic farm animal dungs. Biores Tech. 40:137–142. doi:10.1016/0960-8524(92)90199-8.
- Lefroy RDB, Chaitep W, Blair AGJ. 1994. Release of sulfur from rice residues under flooded and non-flooded soil conditions. Aust J Agric Res. 45:657–667. doi:10.1071/AR9940657.
- Lefroy RDB, Mamaril CP, Blair GJ, Gonzales PB. 1992. Sulphur cycling in rice wetlands. In: Howarth RW, Stewart JWB, Ivanov MV, editors. Sulphur cycling on the continents. New York: Wiley; p. 279–299.
- Lefroy RDB, Santoso D, Ismunadji M. 1991. Incidental S inputs in rainfall and irrigation water. In: Blair G, Lefroy R, editors. Sulfur fertiliser policy for lowland and upland rice cropping systems in Indonesia. Canberra: Australian Centre for International Agricultural Research; p. 101–104.
- Limousin G, Gaudet JP, Charlet L, Szenknect S, Barthe`s V, Krimissa M. 2007. Sorption isotherms: A review on physical bases, modeling and measurement. Appl Geochem. 22:249–275. doi:10.1016/j.apgeochem.2006.09.010.
- Malhi SS, Leach D 2002. Optimizing yield and quality of canola seed with balanced fertilization in the parkland zone of western Canada. accessed 2019 Aug 5:[9 p.]. https://harvest.usask.ca/handle/10388/9766.
- Marschner H. 1995. Functions of mineral nutrients micronutrients. In: mineral nutrition of higher plants. 2nd ed. London: Academic Press; p. 313–404.
- McGrath SP, Zhao FJ. 1996. Sulfur uptake, yield response and the interactions between N and S in winter oilseed rape (Brassica napus L.). J Agric Sci. 126:53–62. doi:10.1017/S0021859600088808.
- McNeill AM, Eriksen J, Bergstro¨m L, Smith KA, Marstorp H, Kirchmann H, Nilsson I. 2005. Nitrogen and sulfur management: challenges for organic sources in temperate agricultural systems. Soil Use Manage. 21:82–93. doi:10.1111/j.1475-2743.2005.tb00412.x.
- Meena SK, Mundra S, Singh P. 2013. Response of maize (Zea mays) to nitrogen and zinc fertilization. Indian J Agron. 58(1):127–128.
- Mesic M, Kisic I, Basic F, Butorac A, Zgorelec Z, Gaspar I. 2007. Losses of Ca, Mg and SO42-S with drainage water at fertilisation with different nitrogen rates. Agric Cons Sci. 72(1):53–58.
- Miller FC. 1993. Minimizing odor generation. In: Hoitink HAJ, Keener HM, editors. Science and engineering of composting: design, environmental, microbiological, and utilization aspects. Worthington (OH): Renaissance Publications; p. 219–241.
- Motsara MR, Roy RN. 2008. Guide to laboratory establishment for plant nutrient analysis. FAO Ferti Plant Nutri Bull. 19:55–56.
- Musvoto C, Campbell BM, Kirchmann H. 2000. Decomposition and nutrient release from mango and miombo woodland litter in Zimbabwe. Soil Biol Biochem. 32:1111–1119. doi:10.1016/S0038-0717(00)00023-7.
- Noman HM, Rana DS, Choudhary AK, Rajput S, Paul T. 2016. Sulphur and Zn management in groundnut (Arachis hypogaea)–wheat (Triticum aestivum) cropping system: direct effects on system productivity and residual effects on yield, energetics and Zn biofortification in wheat. Indian J Agric Sci. 86(4):441–4447.
- Oenema O, Postma R. 2003. Managing sulfur in agroecosystems. In: Abrol YP, Ahmad A, editors. Sulfur in plants. Dordrecht: Springer; p. 45–70.
- Pancholi P, Yadav PP, Guta P. 2017. The influence of weed control and sulfur fertilization on oil content and production of groundnut (Arachis hypogaea L.) in semi-arid region of Rajasthan. J Pharm Phytochem. 6(4):677–679.
- Patel BI, Patel JJ, Patel MM. 2007. Response of groundnut (Arachis hypogaea) to FYM, sulfur and micronutrients and their residual effect on wheat (Triticum aestivum). Soil Crops. 17(1):18–23.
- Patel GN, Patel P, Patel DM, Patel DK, Patel RM. 2009. Yield attributes, yield, quality and uptake of nutrients by summer groundnut (Arachis hypogaea L.) as influenced by sources and levels of sulfur under varying irrigation schedule. J Oilseed Res. 26(2):119–122.
- Reddy KS, Singh M, Swarup A, Rao AS, Singh KN. 2002. Sulfur mineralization in two soils amended with organic manures, crop residues and green manures. J Plant Nutri Soil Sci. 165:167–171. doi:10.1002/1522-2624(200204)165:2<167::AID-JPLN167>3.0.CO;2-1.
- Riley N, Zhao F, McGrath S. 2002. Leaching losses of sulfur from different forms of sulfur fertilisers: a field lysimeter study. Soil Use Manage. 18:120–126. doi:10.1111/j.1475-2743.2002.tb00229.x.
- Sager M. 2012. Levels of sulfur as an essential nutrient element in the soil-crop-food system in Austria. Agric. 2:1–11.
- Shubhangi J, Dhage VD, Mamta J. 2014. Effect of various levels of phosphorus and sulfur on yield, plant nutrient content, uptake and availability of nutrients at harvest stages of soybean (Glycine max L.). Int J Curr Microbiol Appl Sci. 3:833–844.
- Singh AL, Chaudhari V. 1995. Source and mode of sulfur application on groundnut productivity. J Plant Nutr. 18(12):2739–2759. doi:10.1080/01904169509365097.
- Singh AL, Joshi YC, Dayal D, Misra JB 1991. Application of different source of sulfur in groundnut. In: Siddharmmappa R, Vijaya Chaudahry PK, Susheela DL, editors. Proceedings of the National Seminar on Sulfur in Agriculture. University of Agriculture Science Bangalore and Fertilizer and Chemicals Travancore Limited. Cochin India. p. 76–81.
- Singh BP, Rengel Z, Bowden JW. 2006. Carbon, nitrogen and sulfur cycling following incorporation of canola residue of different sizes into a nutrient-poor sandy soil. Soil Biol Biochem. 38(1):32–42. doi:10.1016/j.soilbio.2005.03.025.
- Skwierawska M, Zawartka L, Zawadzki B. 2008. The effect of different rates and forms of sulfur applied on changes of soil agrochemical properties. Plant Soil Environ. 54(4):171–177. doi:10.17221/391-PSE.
- Tabatabai MA, Chae YM. 1991. Mineralisation of sulfur in soils amended with organic wastes. J Environ Qual. 20:684–690. doi:10.2134/jeq1991.00472425002000030030x.
- Tageldin M, Hagoa I, Salamaa MA. 1987. The effects of elemental sulfur on shoot dry weight, nodulation and pod yield of groundnut (Arachis hypogaea) under irrigation. Exp Agric. 23(1):93–97. doi:10.1017/S0014479700001174.
- Tandon HLS. 1991. Sulfur research and agricultural production in India. USA: The Sulfur Institute; p. 142.
- Till AR, Blair GJ 2016. Management of sulfur fertility and fertilization, accessed 2019 Oct 15:[6 p.]. http://fertilizando.com/articulos/ManagementofSulfurFertilityandFertilisation.asp.
- Venkatesh MS, Majumdar B, Lal B, Kumar K. 2001. Effect of phosphorous and zinc nutrition on groundnut in an acid Hapludalf of Meghalaya. Annals Agric Res. 22:354–359.
- Yamaguchi J. 1999. Sulfur deficiency of rice plants in the Lower Volta area, Ghana. Soil Sci Plant Nutr. 45(2):367–383. doi:10.1080/00380768.1999.10409351.