Effect of applied B, Cu, Mn and Zn on soybean yield and micronutrient concentration

Gunaratne, Lionel

January 1984

The effect of applied B, Cu, Mn and Zn on soybean seed yield and tissue micronutrient concentration was studied under different field conditions. Manganese application increased soybean seed yield on the Dragston, Myatt and Slagle fine sandy loams, but not on Rains fine sandy loam. Seed yield was not affected by applied B, Cu or Zn. Broadcast and foliar Mn applications were similarly effective in correction of Mn deficiency and, among foliar Mn applications, split application resulted a higher seed yield than single applications. Micronutrient concentration of the leaf blades, petioles and seeds was increased with the application of B, Cu, Mn and Zn. The increase in tissue B concentration was much greater than that of the other micronutrients. Broadcast Mn application resulted in a higher tissue Mn concentration than foliar Mn applications. The critical Mn concentration in leaf blades at the R1 growth stage was above the level of 13 µg/g, which is reported in the literature. It was concluded that the present calibration of the dilute HC1-H₂SO₄ extractable Mn soil test overpredicts the incidence of Mn deficiency in soybeans. / Master of Science

LD5655.V855 1984.G862

Soybean -- Fertilizers

Plants -- Effect of trace elements on

Influence of genetic obesity on essential trace metal status and metabolism

Kennedy, Martha L.

January 1986

Essential trace metal status in obese (ob/ob) mice and their lean(+/+ and +/?) littermates was assessed by measuring the concentrations and total levels of Zn, Fe, Cu and Mn in several tissues. Data indicated that the concentrations of these metals were significantly lower in several tissues from obese mice at 22 weeks of age when compared to age-matched lean mice. In contrast, tissue concentrations and total levels of these micronutrients in obese and lean mice at 5 weeks of age were similar, indicating that altered trace metal status was a result of chronic obesity. These effects were independent of sex of the animal. Various characteristics of zinc metabolism in lean(+/?) and obese male mice at 10 weeks of age were also investigated. ⁶⁵Zn absorption was significantly higher in obese mice than in lean controls. This difference between phenotypes was not due to differential isotope dilution in either lumen or intestinal mucosa, response to overnight fasting, GI transit time, or hypertrophy of the GI tract. The turnover rate of subcutaneously administered ⁶⁵Zn was similar for obese and lean mice. Obese mice had significantly lower percentages of carcass ⁶⁵Zn and endogenous zinc present in skin, muscle, bone, spleen and testes, and higher amounts present in liver, small intestine and adipose tissue compared with lean mice. Constitutive levels of metallothionein were significantly different in several tissues of lean and obese mice. Together, these results demonstrate that chronic obesity alters tissue status of several micronutrients and zinc metabolism in ob/ob mice. / M.S.

LD5655.V855 1986.K466

Obesity

Trace elements in nutrition

Contamination by lead and other trace metals in roadside soil and vegetation in Hong Kong

Tai, Keen-man., 戴健文.

January 1982

published_or_final_version / Botany / Master / Master of Philosophy

Pollution - China - Hong Kong.

Soils - Trace element content.

Plants, Effect of trace elements on.

Trace elements - Environmental aspects.

Lead - Environmental aspects.

Predicting the riverine concentrations and catchment exports of metals in rural drainage basins of Ontario and Québec

Cuthbert, Iain Dawson

January 1992

Concentrations of Fe, Al, Mn and Zn were measured monthly from April to October at 24 rural riverine sites in Ontario and Quebec. Empirical models were developed predicting riverine metal concentrations from a small set of within-stream and catchment variables. Models explained a significant proportion of the variation in Fe (85%), Al (90%), Mn (57%) and Zn (37%). Simple models predicting annual catchment exports of metals from average riverine suspended particulate concentrations and runoff were also developed. These models explained most of the variation in annual exports of Fe (94%), Al (92%), Mn (62%) and Zn (75%) from the 24 catchments. / Models such as these can be used both to estimate catchment exports of metals to lakes, and to estimate riverine metal concentrations without requiring chemical analyses. The models also serve to distinguish background levels from those indicating metal contamination, and will, therefore, be useful in design of water quality guidelines.

Trace elements in water -- Ontario.

Metals -- Environmental aspects.

Rivers -- Ontario.

Rivers -- Québec (Province).

Predicting the riverine concentrations and catchment exports of metals in rural drainage basins of Ontario and Québec

Cuthbert, Iain Dawson

January 1992

No description available.

Rivers -- Ontario.

Trace elements in water -- Ontario.

Metals -- Environmental aspects.

Rivers -- Québec (Province).

An investigation of the level of selected trace metals in plant species within the vicinity of tantalum mining area in Gatumba, Ngororero District, Rwanda

Gakwerere, François

02 April 2013

Due to mining activities, the natural vegetation cover in Gatumba area was removed and replaced either by crops or bare wasteland with reduced available arable land. The main aim of the study was to assess the impact of the mining activities on the plant mineral uptake and the dynamics of the vegetation. The vegetation in this area under investigation was diversified and heterogeneous. Trace element concentrations in soils were similar to those in plant parts but some elements were highly concentrated in soils than in plants. According to the bioaccumulation factors of the analyzed trace elements in plant parts, two categories of plants were identified, and these are excluders and accumulators. No toxic levels of the evaluated trace elements were found in the analyzed plant samples. As a recommendation for the adaptation of plants to Gatumba mining environment, the most useful plant species for the revegetation/restitution of the technosols should be Sesbania sesban, Crotalaria dewildemaniana and Tithonia diversifolia subject to further experiments on trace elements bioaccumulation and organic matter production / Environmental Sciences / M.A. Science (Environmental Sciences)

Soil and plant trace elements

Tolerance

Bioaccummulation factors

Translocation factors

Excluders

Absorption

Plant community

572.52526

Tantalum -- Rwanda

Plants -- Effect of metals on -- Rwanda

An investigation of the level of selected trace metals in plant species within the vicinity of tantalum mining area in Gatumba, Ngororero District, Rwanda

Gakwerere, François

02 April 2013

Due to mining activities, the natural vegetation cover in Gatumba area was removed and replaced either by crops or bare wasteland with reduced available arable land. The main aim of the study was to assess the impact of the mining activities on the plant mineral uptake and the dynamics of the vegetation. The vegetation in this area under investigation was diversified and heterogeneous. Trace element concentrations in soils were similar to those in plant parts but some elements were highly concentrated in soils than in plants. According to the bioaccumulation factors of the analyzed trace elements in plant parts, two categories of plants were identified, and these are excluders and accumulators. No toxic levels of the evaluated trace elements were found in the analyzed plant samples. As a recommendation for the adaptation of plants to Gatumba mining environment, the most useful plant species for the revegetation/restitution of the technosols should be Sesbania sesban, Crotalaria dewildemaniana and Tithonia diversifolia subject to further experiments on trace elements bioaccumulation and organic matter production / Environmental Sciences / M.A. Science (Environmental Sciences)

Soil and plant trace elements

Tolerance

Bioaccummulation factors

Translocation factors

Excluders

Absorption

Plant community

572.52526

Tantalum -- Rwanda

Plants -- Effect of metals on -- Rwanda

Toxicity and availability of copper and zinc to queen conch: implications for larval recruitment in the Florida Keys

Unknown Date

by Amber L. Garr. / Thesis (Ph.D.)--Florida Atlantic University, 2012. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2012. Mode of access: World Wide Web. / The presence of heavy metals and other pollutants is detrimental to marine ecosystems. The queen conch, once an important fisheries species in the Florida Keys, has not sufficiently recovered after a 25-year fishery closure. Research has shown high levels of copper and zinc in the gonads and digestive glands of adult conch found in the nearshore waters. Four sites relevant to queen conch larval recruitment were tested in 2010 for the presence of copper and zinc in the water, phytoplankton, sediment, and seagrass epiphytes over seven months. Both metals were detected in all sample types and no seasonal or geographical differences were detected. Surface water concentrations from the field were used to conduct acute and chronic toxicity tests on various ages of queen conch larvae and their phytoplankton food source. When zinc concentrations (0-40 (So(Bg/L) similar to those measured in situ were used, there was no significant impact on conch larval survival although some velar lobe de velopment was impaired. However, field concentrations of copper (0-15 (So(Bg/L), which often surpassed water quality standards, negatively impacted growth, survival, and development of the larvae. Chronic exposure to copper, through the water and food, disrupted the metamorphic success of competent larvae and decreased post-metamorphosis survival. Exposure to copper at later life stages increased mortality, suggesting that heavy metals have a negative effect on larval recruitment in localized areas of the Florida Keys. Structural equation modeling revealed that copper and zinc are moving through the systems differently and are best represented by two different models.

Gastropoda--Habitat

Gastropoda--Habitat--Florida Keys

Queen conch--Conservation

Queen conch--Conservation--Florida Keys

Marine invertebrates--Larvae

Trace elements--Environmental aspects

Site specific evaluation of urban brownfields contaminated with trace metals

Murray, Patricia, 1964-

January 1999

This thesis is part of a broader project that examines three different approaches to evaluating trace metal contamination in urban brownfields: the measure of total soil metals; calculating bioavailable metals; and the use of species as bioindicators of trace metals in soils. Chapter 1 discusses the problems inherent in each approach such as; inconsistent results due to differences in techniques, extrapolation from laboratory to field, and the influence of species differences and environmental conditions. Chapter 2 is a site description measuring biodiversity, community structure and activity of three urban brownfields. The site description was used to select organisms that were subsequently evaluated for their usefulness as bioindicators of trace metals (chapter 3). Of the three plant species used (dandelion, bladder campion, and chicory), dandelion has the possibility of being a suitable bioindicator of Cd, Ni, and Zn, while bladder campion may be suitable for evaluating Cd, Ni, Pb, and Zn.

Brownfields -- Québec (Province).

Multi-Element Fingerprinting of River Sediments to Identify Diffuse Pollution Sources

Wijeyaratne, Dimuthu Nilmini

January 2011

This study was carried out in the Souris and Turtle Rivers in North Dakota. The aim of this study was to develop multi-element fingerprints of the Souris River and Turtle River sediments and to evaluate the suitability of these fingerprints to assess the geographic origin of potential pollutants of the two rivers. Preliminary analysis of Souris River sediment samples confirmed that the multi-element fingerprinting can be used to assess the sediment and contaminant loading patterns. Laboratory experiments were performed to assess the validity of linear mixing assumption in multi-element fingerprinting studies. The results of these experiments verified the assumptions and showed that there is a statistically significant spatial and temporal variation in the element concentrations depending on their mobility and re-deposition. Field studies were conducted in the Souris River and Turtle River to assess the variation of element concentrations in the top riverbed samples along the main rivers and their tributaries. The sediment contribution from the tributaries and the phosphorus concentrations in the main channel were used to calculate the phosphorus contributions from the tributary sediments to the Souris River. The differences in phosphorus contributions from tributaries were related to land use, underlying geology, and the size of the watersheds of the tributaries in the Souris River watershed. Similar analysis was used in the Turtle River to calculate Arsenic, Cadmium and Selenium contribution from the tributaries to the Turtle River. The differences in the contribution of these elements were related to the underlying geology and the size of the watersheds. This study provides a detailed analysis of element concentrations and relative sediments and element loading rates from the tributaries to the main rivers along the Souris and Turtle Rivers in North Dakota. The multi-element fingerprinting technique can be successfully used as a tool to identify the relative contribution of sediments and assessing and tracing pollution sources in rivers. Multi-element fingerprinting provides a relatively low cost, rapid tool for sediment tracking, without the need for addition of exotic chemicals such radio-tracers or dyes to natural ecosystems. / North Dakota State University. College of Science and Mathematics / North Dakota State University. Department of Biological Sciences. Environmental Conservation Sciences Program / North Dakota Department of Health / ND INBRE / North Dakota Water Resources Research Institute / North Dakota State Water Commission

River sediments -- Souris River.

Trace elements in water -- Souris River.

Water -- Pollution -- North Dakota.