Using an Anion Exchange Membrane to Predict Soil Available N and S Supplies and the Impact of N and S Fertilization on Canola and Wheat Growth1
References (31)
- et al.
The sulphur requirements of plants as evidenced by sulphur-nitrogen ratio in the organic matter. A review of published data
Plant and Soil
(1967) - et al.
Sulphur
- et al.
Nitrogen and sulfur interaction influences net photosynthesis and vegetative growth of pecan
Journal of the American Society for Horticultural Science
(1992) - et al.
Sulfur deficiency influences on vegetative growth, chlorophyll and element concentrations, and amino acids of pecan
Journal of the American Society for Horticultural Science
(1991) - et al.
Sulfur nutrition of rapeseed: I. Influence of fertilizer nitrogen and sulfur rates
Soil Science Society of America Journal
(1984) - et al.
A review of sulphur fertilizer management for optimum yield and quality of canola in the Canadian Great Plains
Canadian Journal of Plant Science
(2005) - et al.
Sulphur uptake, yield responses and the interactions between nitrogen and sulphur in winter oilseed rape (Brassica napus)
Journal of Agricultural Science
(1996) - et al.
Effect of sulfur deficiency on sulfur and nitrogen levels in pastures and lucerne
New Zeland Journal of Agricultural Research
(1961) - et al.
Bahiagrass response to sulfur on an Aeric Haplaquod
Agronomy Journal
(1989) Identifying and correcting sulfur deficiencies in crop plants
Crops Soils
(1981)
Cotton response to the rate and source of sulfur on a sandy coastal plain soil
Journal of Production Agriculture
Nitrogen and sulfur effects on the yield and quality of corn grown for grain and silage
Journal of Production Agriculture
Assessing nitrogen mineralization from soil organic matter using anion exchange membranes
Fertilizer Research
Ion exchange resin membrane (IERM): A new approach for in situ measurement of nutrient availability in soil
Plant Nutrition and Fertilizer Sciences
Cited by (20)
Combined biochar and nitrogen fertilization at appropriate rates could balance the leaching and availability of soil inorganic nitrogen
2019, Agriculture, Ecosystems and EnvironmentCitation Excerpt :Hence, a large amount of SIN may be captured by biochar and sequestered in the soil. The IEM method may provide a reliable measure of nutrient exchangeability over a range of soils and can accurately predict SIN availability (Johnson et al., 2005; Qian and Schoenau, 2007; Cambouris et al., 2014). Thus, a modified extraction method could be used to ascertain whether field-aged biochar captures SIN, and IEMs could be used to examine the availability of residual SIN.
Azotobacter-enriched organic manures to increase nitrogen fixation and crop productivity
2018, European Journal of AgronomyCitation Excerpt :Lack of oxygen in the soil and a fresh organic substrate are conditions particularly favourable to the activity of denitrifying bacteria (Coyne, 2008; Havlin et al., 2014), which may have caused substantial losses of N by denitrification. The anion exchange membranes, by assessing the nitrate levels in the soil, corroborated the above-mentioned results, and proved to be itself a suitable method of monitoring soil nitrate levels as was shown in previous studies (Qian and Schoenau, 2007; Rodrigues et al., 2010; Arrobas et al., 2011; Arrobas and Rodrigues, 2013). Barley grown without fertilization showed a good performance of the organic amendments, with results of dry matter yield and N recovery higher than those of MinR1, proving that their fertilizing effect, though modest in the short-term, lasts longer.
Fabrication of novel (acrylonitrile butadiene styrene/activated carbon/silver nanoparticles) heterogeneous anion exchange membrane: Physico-chemical and antibacterial characteristics
2013, Journal of the Taiwan Institute of Chemical EngineersCitation Excerpt :During the last 50 years, ion-exchange membranes have evolved from laboratory tools to industrial products with significant technical and commercial impacts. The main reasons for extension and application ion exchange membranes are resource recovery, cleaner production, they can also separate acidic gas, purify proteins; enrich elements via carrier-mediated transport or adsorption [10–14]. Permselectivity, ionic permeability and flux of ions are an important index for membrane efficiency in conventional ion-exchange applications [15–18].
Sulfur management for rapeseed
2012, Field Crops ResearchCitation Excerpt :Mineralization of organic matter will also serve as a source of S for the crop and some regions include organic matter when determining the need for sulfur application or suggest that crops are more likely to respond to S applications on low organic matter soils (Franzen and Grant, 2008). Ion exchange resins may be useful in measuring supply of sulfate from mineralization of organic matter, or from dissolution of sparingly soluble inorganic forms of S (Qian et al., 1992; Schoenau et al., 1993; Qian and Schoenau, 2007). In growth chamber studies, rapeseed S uptake was better correlated with the supply rate of sulfate measured using ion exchange resins than with water soluble sulfate (Schoenau et al., 1993), while under field conditions, ion exchange resins provided a good indication of the plant-availability of elemental and sulfate forms of S fertilizer (Grant et al., 2003b).
Preparation and characterization of Type II anion exchange membranes from poly(2,6-dimethyl-1,4-phenylene oxide) (PPO)
2008, Journal of Membrane Science
- 1
Project supported by the Potash and Phosphate Institute of Canada (PPIC).