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Treatment I (treatment + i)

Distribution by Scientific Domains
Earth and Environmental Science75%

Selected Abstracts

Introduction of jundia Rhamdia quelen (Quoy & Gaimard) and Nile tilapia Oreochromis niloticus (Linnaeus) increases the productivity of carp polyculture in southern Brazil

AQUACULTURE RESEARCH, Issue 5 2008
Leonardo Bolognesi Da Silva
Abstract Fish polyculture is based on the assumption that each species has its own feeding niche and may increase the maximum standing crop of a pond by exploring a wider range of available food and ecological niches. In order to identify the better species ratio and to introduce jundia (JN) (Rhamdia quelen Quoy & Gaimard) and Nile tilapia (NT) (Oreochromis niloticus Linnaeus) in to the carp polyculture practiced in South Brazil, a 162-day experiment was conducted, in 12 250-m2 earthen ponds (1.2 m deep). Treatment I (T-I) contained 35% common carp, Cyprinus carpio (L.) (CC); 35% grass carp, Ctenopharyngodon idella Valenciennes (GC); 15% silver carp, Hypophthalmichthys molitrix Valenciennes (SC); and 15% bighead carp, Aristichthys nobilis Richardson (BC). Treatment II (T-II) consisted of three ponds stocked at the following ratio: 17.5% CC, 35% GC, 15% SC, 15% BC and 17.5% JN. Treatment III (T-III) consisted of three ponds with 35% CC, 35% GC, 7.5% SC, 7.5% BC and 15% NT. Treatment IV (T-IV) consisted of three ponds with 17.5% CC, 35% GC, 7.5% SC, 7.5% BC%, 17.5% JN and 15% NT. No significant correlation was found between the treatments with different species ratio and water quality parameters. The final weight of different species, in different treatments, was statistically different. The major result was the clear positive effect on growth parameters observed by the introduction of JN and/or NT in to the carp polyculture. The yield per hectare was 2083.33±183 kg ha,1 for polyculture with carp species; 2476.67±139.88 kg ha,1 following the introduction of JN only; 2801.67±111.42 kg ha,1 for isolated introduction of NT; and 2506.67±422.31 kg ha,1 for simultaneous introduction of JN and NT. The introduction of JN and/or NT had a positive effect on growth parameters when compared with carp-only polyculture. The reduction in CC ratio also had a positive effect on growth parameters. [source]

Effects of two contrasting agricultural land-use practices on nitrogen leaching in a sandy soil of Middle Germany

JOURNAL OF PLANT NUTRITION AND SOIL SCIENCE, Issue 3 2009
Christian Böhm
Abstract The objective of this study is to evaluate different agricultural land-use practices in terms of N leaching and to give recommendations for a sustainable agriculture on sandy soils in Middle Germany. Soil mineral N (Nmin) and leachate N were quantified at a sandy soil in N Saxony during 3 years. Two treatments were applied: intensive (I),using inorganic and organic fertilizer and pesticides, and organic (O),exclusively using organic fertilizer, legume-based crop rotation, and no pesticides. Split application of mineral fertilizers did not result in substantial N losses at treatment I. Legumes induced a considerable increase of soil mineral N and particularly of leachate mineral N (Nmin_perc) at treatment O. High Nmin_perc concentrations (up to 78 mg N L,1) were observed during as well as after the cultivation of legumes. These high Nmin_perc concentrations are the reason why clearly higher Nmin_perc losses were determined at treatment O (62 kg N ha,1 y,1) compared to treatment I (23,kg N ha,1 y,1). At both treatments, the quantity of N losses was strongly affected by the precipitation rates. Concentrations and losses of dissolved organic N (DONperc) were assessed as above average at both treatments. The results suggest that the DONperc concentration is influenced by precipitation, soil coverage, and organic fertilizers. Higher values were determined in the percolation water of treatment O. The average annual DONperc losses amounted to 15,kg N ha,1 at I and to 32 kg N ha,1 at O. The average monthly percentage of DONperc losses on the loss of the dissolved total N of percolation water (DTNperc) ranged between <1% and 55% at O and between 2% and 56% at I. For the whole measuring period of 29 months, the relative amounts of DONperc of DTNperc (21% at O and 25% at I) were more or less the same for both treatments. The results show that DONperc can contribute significantly to the total N loss, confirming the importance to consider this N fraction in N-leaching studies. It was concluded that at sandy sites, a split application of mineral fertilizers, as applied at treatment I, seems to be more expedient for limiting the N leaching losses than legume-based crop rotations. [source]

Effect of intravenous infusion time on the pharmacokinetics and pharmacodynamics of the same total dose of torasemide in rabbits

BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 5 2004
Yu C. Kim
Abstract The pharmacokinetics and pharmacodynamics of torasemide were evaluated after intravenous administration of the same total dose of torasemide at a dose of 1mg/kg to rabbits with different infusion times, 1 min (treatment I), 30 min (treatment II) and 2 h (treatment III). The loss of water and electrolytes in urine induced by torasemide was immediately replaced with infusion of an equal volume of lactated Ringer's solution. All the pharmacokinetic parameters of torasemide, such as total area under the plasma concentration,time curve from time zero to time infinity (AUC), total body clearance (CL), apparent volume of distribution at steady state (Vss), terminal half-life and mean residence time (MRT), were independent of infusion times. However, the 8h urine output (235, 534 and 808 ml) and 8h urinary excretion of sodium (24.2, 80.1 and 89.2 mmol) and chloride (27.1, 89.2 and 94.0 mmol) were significantly greater in treatments II and III than those in treatment I, although the total 8 h urinary excretion of unchanged torasemide (1210, 1210 and 1310 µg) were not significantly different among the three treatments. This could be due to the higher diuretic efficiencies in treatments II and III. Copyright © 2004 John Wiley & Sons, Ltd. [source]

Effects of including catla and tilapia in a freshwater prawn,mola polyculture in a rotational rice,fish culture systems

AQUACULTURE RESEARCH, Issue 9 2009
Mrityunjoy Kunda
Abstract An on-farm trial was carried out from February to June 2006 to evaluate the growth and production performance of catla (Catla catla) and tilapia (Oreochromis niloticus) with freshwater prawn (Macrobrachium rosenbergii) and mola (Amblypharyngodon mola) in farmer's rice fields. In all treatments, 20 000 mola ha,1 and 20 000 prawn ha,1 were stocked. Besides, stocking included 2500 catla ha,1 in treatment-I, 2500 tilapia ha,1 in treatment-II and catla and tilapia at 1250 ha,1 each in treatment-III . Prawns were fed in the evening with pellets at a feeding rate of 3,8% body weight (initially 8% and gradually decreased to 3%). Catla and tilapia were fed in the morning with a paste of mustard oil cake and rice bran at a feeding rate of 3% body weight. Significantly higher combined production of fish and prawn observed was 2142 kg ha,1 in treatment-I. The benefit:cost ratio was found to be significantly higher in treatment-I than in treatment-II and there were no differences between treatments I and III. From the production and economic point of view, treatment-I was found to be the best proposition for the rotational rice,fish culture systems. [source]