Littérature scientifique sur le sujet « Bioavailable phosphoru »
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Articles de revues sur le sujet "Bioavailable phosphoru"
Kulhánek, Martin, Jindřich Černý, Jiří Balík, Ondřej Sedlář et Filip Vašák. « Changes of soil bioavailable phosphorus content in the long-term field fertilizing experiment ». Soil and Water Research 14, No. 4 (9 octobre 2019) : 240–45. http://dx.doi.org/10.17221/175/2018-swr.
Texte intégralNakajima, J., Y. Murata et M. Sakamoto. « Comparison of several methods for BAP measurement ». Water Science and Technology 53, no 2 (1 janvier 2006) : 329–36. http://dx.doi.org/10.2166/wst.2006.067.
Texte intégralThien, S. J., et R. Myers. « Determination of Bioavailable Phosphorus in Soil ». Soil Science Society of America Journal 56, no 3 (mai 1992) : 814–18. http://dx.doi.org/10.2136/sssaj1992.03615995005600030023x.
Texte intégralSoares, Ana R. A., Ann-Kristin Bergström, Ryan A. Sponseller, Joanna M. Moberg, Reiner Giesler, Emma S. Kritzberg, Mats Jansson et Martin Berggren. « New insights on resource stoichiometry : assessing availability of carbon, nitrogen, and phosphorus to bacterioplankton ». Biogeosciences 14, no 6 (24 mars 2017) : 1527–39. http://dx.doi.org/10.5194/bg-14-1527-2017.
Texte intégralKlement, Rejšek. « The Quantitative Estimate of Bioavailable Inorganic Phosphorus Content in Forest Soils by the Modification of the Anion-Exchange Resin Method ». Soil and Water Research 1, No. 4 (7 janvier 2013) : 117–26. http://dx.doi.org/10.17221/6513-swr.
Texte intégralNausch, M., et G. Nausch. « Bioavailable dissolved organic phosphorus and phosphorus use by heterotrophic bacteria ». Aquatic Biology 1 (29 novembre 2007) : 151–60. http://dx.doi.org/10.3354/ab00012.
Texte intégralNolan, AL, GA Lawrance et M. Maeder. « Phosphorus speciation in the Williams River, New South Wales : Eutrophication and a chemometric analysis of relationships with other water quality parameters ». Marine and Freshwater Research 46, no 7 (1995) : 1055. http://dx.doi.org/10.1071/mf9951055.
Texte intégralHerndon, Elizabeth, Lauren Kinsman-Costello, Nicolle Di Domenico, Kiersten Duroe, Maximilian Barczok, Chelsea Smith et Stan D. Wullschleger. « Iron and iron-bound phosphate accumulate in surface soils of ice-wedge polygons in arctic tundra ». Environmental Science : Processes & ; Impacts 22, no 7 (2020) : 1475–90. http://dx.doi.org/10.1039/d0em00142b.
Texte intégralSharpley, Andrew N., W. W. Troeger et S. J. Smith. « The Measurement of Bioavailable Phosphorus in Agricultural Runoff ». Journal of Environmental Quality 20, no 1 (janvier 1991) : 235–38. http://dx.doi.org/10.2134/jeq1991.00472425002000010037x.
Texte intégralSharpley, Andrew N., S. J. Smith, O. R. Jones, W. A. Berg et G. A. Coleman. « The Transport of Bioavailable Phosphorus in Agricultural Runoff ». Journal of Environmental Quality 21, no 1 (janvier 1992) : 30–35. http://dx.doi.org/10.2134/jeq1992.00472425002100010003x.
Texte intégralThèses sur le sujet "Bioavailable phosphoru"
Bradford, Marie E. « The relationship between chemically analysed phosphorus fractions and bioavailable phosphorus / ». Thesis, McGill University, 1985. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=66053.
Texte intégralBarker, Kenneth Warren. « Bioavailable Phosphorus in the Bear River System ». DigitalCommons@USU, 1988. https://digitalcommons.usu.edu/etd/4400.
Texte intégralOSAFO, NANA. « Phosphorus in the sediment of L. Hällerstadsjön : spatial distribution, fractions and release to the water volume ». Thesis, Linköpings universitet, Institutionen för fysik, kemi och biologi, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-131757.
Texte intégralChaffin, Justin D. « Effects of Low Bioavailable Nitrogen and Phosphorus on Cyanobacteria Dynamics in Eutrophic Lake Erie ». University of Toledo / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=toledo1363125803.
Texte intégralGeorge, Suman Jacob. « Effects of land-use change on phosphorus forms in South-West Australian soils ». University of Western Australia. School of Earth and Geographical Sciences, 2004. http://theses.library.uwa.edu.au/adt-WU2004.0078.
Texte intégralChang, Yung-Nan, et 張永南. « Bioavailable Phosphorus Changes in the Soil Amended with Swine Waste Compost with Alum Sludge ». Thesis, 2005. http://ndltd.ncl.edu.tw/handle/92845239994692605323.
Texte intégral國立屏東科技大學
環境工程與科學系
93
All of the poultry and livestock waste. The swine manure and seawage sludge containing high nitrogen and phosphorus plants nutrients. But peasantry used compost almost consider nitrogen concentration. If land application of compost a great quantity for a long time. The land maybe induced a nutrient imbalance in crops, soil pollution, especially phosphorus too much in the land. The alum sludge containing a large number [Al2(SO4)3.18H2O], It can fixed phosphate in drinking water. This sludge application in land, it would be resources, decrease, security and economic benefit. Therefore, the research is amended alum sludge with seawage sludge and manure compost to make use of sludge fixed phosphorus property, and than plant pakchoi experiment in normal atmospheric temperature. It would to understand bioavailable P in the soils. The result, the treat had not amended alum sludge with manure composts that bioavailable P in the soils concentration is 90.32 mg/kg. The treat had amended alum sludge with manure composts that bioavailable P in the soils concentration decrease 87.15 mg/kg. The seawage sludge had not amended alum sludge that bioavailable P in the soils concentration is 99.67 mg/kg. But, amended alum sludge with seawage sludge that bioavailable P in the soils concentration decrease 75.82 mg/kg .The alum sludge can fixed phosphorus in this experiment. The experiment plant pakchoi can to verify. The alum sludge application can decrease too much phosphorus in environments and it can not effect plant pakchoi to grow.
Wang, Ming-Jen, et 王明仁. « Relationship between soil microbial biomass, acid phosphatase activity and bioavailable phosphorus at Ta-Ta-Chia alpine forest ecosystem ». Thesis, 2002. http://ndltd.ncl.edu.tw/handle/09231849964925604893.
Texte intégral國立臺灣大學
農業化學研究所
90
There are lacks of fertility as limiting factor for plant growth due to non- fertilizer in several natural ecosystems in worldwide. The lack of phosphorus causes the limiting plant growth in natural environment. The limit amount of phosphorus supply was present in natural environment and limit in bioavailability P for plant growth. Thus, the mineralization of organic P is an important source for P supply. There are two pathways concerning the mineralization of P: (1) inorganic P was transformed from microbial activity, and (2) inorganic P was transformed by soil enzyme reaction. The objectives of this study were focused on the Ta-Ta-Chia forest ecosystem. Liters input in soils and reduce the activity of plant physiology in winter. Liters were decomposed by soil microbes, and to investigate the bioavailability P contents correlated with microbial biomass, activity of acid phosphates, vegetation in situ, slop and microclimate. This study selected four sites. Every site collected six samples each time. The four sites are: (site 1) grassland of upper slope, (site 2) mixed forest with slope accumulate materials in down slope, (site 3) mixed forest without slope accumulate materials in flat location, (site 4) yushania. The results indicated that the slope can cause the nutrient accumulation. The amount of microbial biomass and acid phosphatase in down slopes of mixed forest site (site 2)and yushania (site 4) were grater than the grassland of upper slope (site 1), and shown significant differences (p<0.05). It is shown the same trend of the amount of bioavailability P with respect to slope (p<0.05). On the other hand, in the same elevation of mixed forest site (site 2) and yushania site (site 4), mixed forest site (site 2) contained more soil microbial biomass and higher phosphatase activity (P<0.05), but it is shown slightly difference of microbial biomass and bioavailability P. In comparison of slope of the same vegetation, the amount of microbial biomass and phosphatase in slope area were grater than that of flat site. The temporal variation indicated that bioavailability P significantly increase in autumn and winter, and not significant differences in spring and summer due to plant uptake P in spring and summer. From this study, bioavailability P showed different correlation with microbial biomass and activity of soil acid phosphatase. The R2 are equal to 0.858 and 0.782, respectively.
Livres sur le sujet "Bioavailable phosphoru"
R, Horner Richard, dir. Management significance of bioavailable phosphorus in urban runoff. Seattle, Wash : Environmental Engineering and Science Program, Dept. of Civil Engineering, Univ. of Washington, 1987.
Trouver le texte intégralShalders, R. D. The measurement of bioavailable phosphorus in natural waters : Final report. [Belconnen, A.C.T.] : Cooperative Research Centre for Freshwater Ecology, 1998.
Trouver le texte intégralBrett, Michael T. Bioavailable Phosphorus (BAP) Fraction in Effluent from Advanced Secondary and Tertiary Treatment. IWA Publishing, 2015.
Trouver le texte intégralChapitres de livres sur le sujet "Bioavailable phosphoru"
Tian, Fuwei, Jiangyu Dai, Jiayi Xu, Xiufeng Wu, Shiqiang Wu, Yu Zhang, Fangfang Wang et Ang Gao. « Do the Short-Term Water Diversion from Yangtze River Increase Phosphorus Bioavailability in the Water-Receiving Area ? » Dans Lecture Notes in Civil Engineering, 1098–112. Singapore : Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-6138-0_96.
Texte intégralMohd Halid, Nur Fatin Hanani Binti, Takanobu Inoue, Kuriko Yokota et Makoto Saga. « Comparison of Bioavailable Phosphorus in River Sediments and River Bed Sediments from Agricultural and Urban Rivers ». Dans Proceedings of AICCE'19, 1333–43. Cham : Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-32816-0_104.
Texte intégralActes de conférences sur le sujet "Bioavailable phosphoru"
Barczok, Maximilian, Chelsea Smith, Lauren Kinsman-Costello, David Singer et Elizabeth Herndon. « Influence of Permafrost Thaw on Redox, Iron Speciation, and Bioavailable Phosphorus in a Subarctic Peatland ». Dans Goldschmidt2020. Geochemical Society, 2020. http://dx.doi.org/10.46427/gold2020.131.
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