Global ETD Search

131	SELECTION AND CHARACTERIZATION OF SALT TOLERANT CARROT CELLS. Simons, Robert Alten. January 1983 (has links) No description available. Carrots -- Cytology. Plants -- Effect of salt on. Salt-tolerant crops.
132	Annual Road Salt Budget During the 2013-2014 Season in an Unconfined Aquifer, Southeastern MA Bello, Bianca Susan January 2015 (has links) Thesis advisor: Rudolph Hon / Road de-icing salts (predominantly NaCl, CaCl2, and MgCl2) are applied each winter in the northern US, northern Europe, and Canada to maintain safe driving conditions. It is widely recognized that road salt enters the environment through runoff and infiltration (Williams et al., 2000; Ostendorf, et al., 2001; J. Marsalek, 2003), resulting in salinization of freshwater (Godwin et al., 2003; Kaushal et al., 2005; Kelly et al., 2012). The chloride concentration (a proxy for deicers) has doubled in the last 20 years in the groundwater Norwell, MA, the primary public water supply for the town’s residents, and often exceeds the EPA secondary drinking water standard for chloride. The annual budget TDLCl¬ of Third Herring Brook in Norwell, MA is estimated using specific conductance and discharge datasets to determine the retention of dissolved deicers in the watershed during the study period. The estimated retention rate is between 59% and 78%. / Thesis (MS) — Boston College, 2015. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Earth and Environmental Sciences. aquifer salinization deicer contamination road salt budget road salt retention
133	Biochemical and functional study of a putative Lambda class glutathione-S-transferase gene in the wild soybean. January 2014 (has links) 我們在大豆的耐鹽候選基因中進行了篩選和調查，確定了一個穀胱甘肽-S -轉移酶（Glutathion-S-transferase ）基因（ GmGSTL1 ）具抗鹽特性，其表達量也跟隨鹽處理上調。系統發育分析表明，GmGSTL1 屬於LAMBDA 類，文獻對這類蛋白功能的記載甚少。我們在異源系統，包括煙草BY- 2 細胞和擬南芥，測試其保護細胞/植物對鹽脅迫的功能。結果表示GmGSTL1 轉基因細胞的活性氧積累比對照顯著降低，存活率也有所改善。同樣，轉基因擬南芥在鹽處理壓力下的症狀也得以緩解。為了進一步剖析GmGSTL1 的保護機制，我們在大豆葉片中提取多元酚，並發現兩個候選黃酮（槲皮素，山奈酚）與GmGSTL1 起相互作用。槲皮素的外源性應用同樣可以緩解細胞/植物在鹽脅迫下的症狀，表示槲皮素在功能上與GmGSTL1 相約。 / In a survey of candidate genes located in the salinity tolerance locus of soybean, we identified a putative glutathione-S-transferase (GST) gene (GmGSTL1) which was up-regulated in response to salt treatment. Phylogenetic analyses revealed that this putative GST belongs to the Lambda class, a plant-specific group with unknown functions. We expressed GmGSTL1 in heterologous systems, including tobacco BY-2 cells and Arabidopsis thaliana, to test its ability to protect cell/plant against salinity stress. Compare to the wild type control, we observed a marked reduction of ROS accumulation in transgenic cells under salt treatment, and their survival rate was also improved. Similarly, expression of GmGST1 in transgenic A. thaliana also alleviated stress symptoms under salt treatment. To further address the possible protective mechanisms of GmGSTL1, we identified two candidate flavonoid interactants (quercetin and kaemferol) of the GmGSTL1 protein from soybean leaf extract. Exogenous application of quercetin could reduce salinity-induced ROS accumulation in BY-2 cells and leaf chlorosis in A. thaliana. / Detailed summary in vernacular field only. / Chan, Ching. / Thesis (Ph.D.) Chinese University of Hong Kong, 2014. / Includes bibliographical references (leaves 80-104). / Abstracts also in Chinese. Soybean--Genetics Soybean--Effect of salt on Salt-tolerant crops
134	Changes of tomato fruit composition in response to salinity Gao, Yuan, Ph.D. January 1991 (has links) (PDF) Includes bibliographical references Tomatoes Effect of salt on Soils, Salts in Plants, Effect of salt on
135	The effect of tidal forcing on iron cycling in intertidal salt marsh sediments Bristow, Gwendolyn 11 July 2006 (has links) In this study we investigated the effect of tidal forcing on iron cycling in intertidal saltmarsh sediments (ISS). Historically, sulfate has been considered the major terminal electron acceptor involved in organic carbon remineralization in ISS. Although sulfate is a more efficient electron acceptor for organic matter degradation in anoxic ISS, irons rapid recycling at the surface of ISS may allow it also to be an important electron acceptor for the remineralization of organic matter. Bioturbation, macrophyte-mediated irrigation, and semidiurnal tidal forcing in this environment may increase the abundance of O2 in the top few cm of the sediment, rapidly oxidizing iron and inhibiting sulfate reduction. To determine if the cycling of iron may be faster than previously thought in these sediments, we combined sediment core chemical profiles of reduced and oxidized insoluble iron with in-situ electrochemical profiles of O2, Fe2+, soluble organic-Fe3+ complexes, FeS(aq), and hydrogen sulfide in the top few centimeters of unvegetated creek bank sediments over several tidal cycles. We also installed monitoring wells in the tidal creek bank to quantify tidal forcing and to investigate tidal direction in the sediments. We built a transient, reactive transport model to simulate measured geochemical profiles and test our understanding of diagenetic processes. Additional tests were run on the model to investigate the importance of bioirrigation compared to tidally-induced porewater advection. Results indicate that tidal action is a more dominant transport process. It affects the cycling of iron in ISS by flushing reduced species out of the sediment during flood tide, and allowing oxygen and oxidized species deeper into the sediment during ebb tide. As a result, amorphous iron oxides are replenished at the sediment surface, and microbial iron reduction may be the main respiratory process in the first tens of centimeters of creek bank saltmarsh sediments subjected to intense tidal forcing. Diagenetic modeling Diagenesis Iron cycling Salt marsh Intertidal salt marsh
136	Investigation of excess salt in the diet of cattle and its effect on digestion, metabolism, and reproduction Nesbitt, Joseph Charles, 1924- January 1951 (has links) No description available. Cattle -- Effect of salt on. Salt -- Physiological effect. Cattle -- Feeding and feeds.
137	Seed germination, respiration and mitochondrial efficiency of three alfalfa (Medicago sativa L.) cultivars subjected to NaCl salinity Bar-Adon, Moshe, 1947- January 1974 (has links) No description available. Plants -- Effect of salt on. Alfalfa -- Seeds. Salt -- Physiological effect.
138	Development of in vitro bioassays for determination of salinity tolerance in potato (Solanum spp.) Zhang, Yanling, 1955- January 1998 (has links) Salinity problems seriously affect agricultural production by reducing crop yield and arable land. The evaluation of potato genotypes (Solanum spp.) for their salinity (NaCl) tolerance in conventional field trials is time consuming and labour intensive. The results are often confounded by many field and environmental variations. In vitro bioassays can overcome some of these difficulties by providing faster, more convenient and dependable methods for screening and selection of salt tolerant potato genotypes. The objective of this research was to develop in vitro bioassay methods for screening and selection of salt tolerant potato. Under in vitro NaCl stress conditions, seed germination, early seedling growth, and single-node cutting bioassays were used to evaluate salinity tolerance. The selected genotypes were further tested with three in vitro bioassays (single-node cuttings, root tip segments, and microtuberization). The rankings of potato cultivar salinity tolerance were similar in these bioassays. The single-node cutting bioassay was recommended because it was simpler to perform than the root tip segment and microtuberization bioassays and did not exclude certain genotypes as did the microtuberization bioassay. The in vitro bioassay rankings were compared with yield ranking in field lysimeters. In both the in vitro and in vivo saline stress experiments, cvs. Kennebec and Russet Burbank were more salt tolerant than Norland. The tubers and microtubers harvested from previous experiments were tested in the greenhouse to investigate salinity carry-over effect for seed tuber production. There was no apparent residual carry-over effect found. Microtuber yield increase in the presence of low NaCl concentration was induced primarily by specific ion (Na+), and not osmotic effects. This research clearly indicated that in vitro bioassays are relatively simple, rapid, convenient, repeatable, and agree with the field lysimeter results. They can be used to substitute for f Potatoes -- Effect of salt on. Salt-tolerant crops. Biological assay.
139	Evaluation of salt tolerance in potato (Solanum spp.) Khrais, Tala January 1996 (has links) This research was carried out to identify salt tolerant potato genotypes in vitro among 131 tetraploid potato cultivars (Solanum tuberosum), 9 diploid simple hybrid clones (4 clones of S. chacoense $ times$ S. tuberosum, 4 clones of S. phureja/S. stenotomum $ times$ S. tuberosum, and 1 clone of S. tuberosum $ times$ S. tuberosum), 1 primitive cultivated diploid S. phureja/S. stenotomum accession, 12 tetraploid complex hybrids, and 13 diploid S. chacoense accessions. Four levels of NaCl (0, 40, 80, and 120 mM) were used. The cultivars, and the simple and complex hybrids were tested for salt tolerance at the vegetative stage in the nodal cutting bioassay. The thirteen S. chacoense accessions were tested for salt tolerance at the germination and early seedling growth stage, in a seedling bioassay. Eleven of these S. chacoense accessions were further tested at the vegetative stage, in the nodal cutting bioassay. There was a progressive decline in the morphological parameters measured, with increased salt levels, in the nodal cutting bioassay. The parameters were used collectively in ranking the different genotypes, averaged over three NaCl levels (40, 80, and 120 mM). Twenty potato cultivars, two clones of the simple hybrid S. chacoense $ times$ S. tuberosum, and one complex hybrid were all considered salt tolerant at the vegetative stage. Ranking of seven S. chacoense accessions was similar between early seedling growth and later vegetative stage. Two of these accessions were promising as sources of salt tolerance. Potatoes -- Genetics. Potatoes -- Effect of salt on. Salt-tolerant crops.
140	The development and progression of renal damage in Streptozotocin-Type1 Diabetes Mellitus under Goldblatt renovascular hypertension and high-salt condition Sima, Carmen Aurelia 14 July 2011 (has links) Under normotensive conditions, the progressive loss of renal function in diabetes mellitus is very slow. Since hypertension accelerates many forms of renal disease, we assessed the progression of nephropathy in Streptozotocin-induced type 1 diabetes mellitus under renin-mediated hypertension condition. We investigated the diabetic “salt paradox” as a modifiable susceptibility factor for renal damage. Since hyperfiltration occurs in early diabetes, the reduction of glomerular filtration rate due to an increased salt intake could be mediated by increased tubuloglomerular feedback sensitivity. We compared intact-hypertensive versus diabetic-hypertensive Long-Evans rats under normal and increased salt intake, 1 and 2.5% by weight of food eaten, respectively. Weekly 24-h blood pressure records were acquired by telemetry during the six months of the experiment. Target mean blood glucose of ~ 25 mmol/L was maintained by suboptimal insulin implants. Systolic blood pressure increased after induction of hypertension but was not affected by diabetes or increased salt intake, either alone or together. Autoregulation was highly efficient in both intact and diabetic rats. Nephropathy was scored by histology in the clipped and non-clipped kidneys at the end of the protocol. The non-clipped kidney, which was exposed to hypertension, showed a linear pressure-dependent glomerular injury in both intact and diabetic rats. The best fit line describing the linear relationship between pressure load and injury was shifted toward lower blood pressure in diabetic rats. Over the time course of our experiments, injury was entirely pressure dependent in intact and diabetic rats. Diabetes mellitus increased the susceptibility of the kidney to injury, but independent of blood pressure. Increased salt intake affected neither blood pressure nor renal susceptibility to hypertensive injury. / Graduate Diabetes mellitus salt sensitivity salt paradox Goldblatt hypertension renal autoregulation

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