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Polygalacturonase gene expression during pod development in oilseed rape (Brassica napus L.)Jenkins, Elizabeth January 1997 (has links)
No description available.
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Prekės ženklo „suskaldymas“: vizualinio identiteto elementų įtaka prekės ženklo atpažįstamumui / Brand „shatter“: visual identity elements impact on brand recognitionLapinskaitė, Auksė 05 June 2013 (has links)
Darbo tikslas – sukurti vizualinio identiteto elementų, įtakojančių prekės ženklo atpažįstamumą, naudojimo modelį. Pirmoje dalyje pristatomos įvairių autorių prekės ženklo identiteto, vizualinio identiteto ir jo elementų sampratos. Pagrindžiamas kiekvieno elemento vaidmuo vizualiniame identitete ir jo svarba prekės ženklo atpažinimui. Antroje dalyje pateikiami turinio analizės, tikslinės grupės diskusijos ir eksperimentinio tyrimo rezultatai. Remiantis antroje dalyje gautais rezultatais, projektinėje dalyje pateikiamas vizualinio identiteto elementų, įtakojančių prekės ženklo atpažįstamumą, naudojimo modelis. / The aim of the paper is to create usage pattern of visual identity elements, which influence brand recognition. The first part introduces conceptions of the brand identity, visual identity and it`s elements by various authors. Paper contains justification of each element role in the visual identity and it`s importance for a brand recognition. The second part presents the content analysis, discussions of the focus group and the experimental research results. According to the second part results, the designed part contains usage pattern of visual identity elements which influence recognition of the brand.
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Comparison of Prehistoric and Protohistoric Components at the Lighthouse Bayou Shell Midden, 8Gu114, Northwest FloridaGold, Theodore Gold 04 November 2016 (has links)
The dawn of the eighteenth century in the Apalachicola delta region of the Florida panhandle was a time of major social upheaval that has been underexplored by current research. There are no historic records that describe the events and peoples in the region during establishment of the Spanish missions in the Tallahassee area to the east. Archaeological evidence shows the disappearance of the late prehistoric Mississippian Fort Walton people and the brief emergence of the protohistoric Lamar archaeological culture during the time of the destruction of the Spanish mission system around 1704. The Lighthouse Bayou site, 8Gu114, in Gulf County, has both a Fort Walton and a Lamar component, and therefore offers an opportunity to understand this tumultuous time period better. Comparison of the ceramics shows a transition from incised rectilinear scrolling motifs during Fort Walton to a series of incised and stamped designs, along with the emergence of check-stamping as common surface decorations during Lamar. Temper choices are further indicative: pottery of both components has extensive sand and grit tempering, with only limited shell- or grog-tempered vessels, suggesting that indigenous peoples here did not identify with the missionized Apalachee Indians. The lithic data, while limited, show that both the Fort Walton and Lamar inhabitants were more likely retouching existing tools rather than creating new ones; however, the proportion of flake types suggest that the Lamar inhabitants may have exploited chert to a greater extent than did their Fort Walton counterparts. The faunal data show considerable difference in food source exploitation strategies. The Fort Walton inhabitants used the Lighthouse Bayou site specifically to procure shellfish and fish, while the Lamar inhabitants made use of a wider variety of protein sources throughout the area. These differences suggest a contrast between the two time periods: Fort Walton existed under the relatively stable aegis of the late prehistoric Mississippian era. The Lamar people, while not Apalachee Indians, must have been another group fleeing the conflict amid the destruction of the Spanish missions and the general social collapse in Florida’s early eighteenth century.
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Comparison of Shatter Effects in Autodesk Maya with nCloth and DMM PluginIrwin, Caroline January 2012 (has links)
In today’s society, movies and videogames with a great deal of visual effects that contain objects that break, shatter or explode are popular. They are created from a number of different kinds of 3D programs and plugins. This time Autodesk Mayas nCloth is compared with the new built-in Digital Molecular Matter (DMM) Plugin to see which technique is easiest to use, as well as delivers the best result. A modeled sculpture was shattered using both nCloth and DMM and a set of predefined areas were studied. The results reveals that both techniques can be employed however the DMM technology has several advantages where less time consumption is one of them.
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Evaluation of integrated weed management techniques and their nuances in Virginia crop productionBeam, Shawn Christopher 04 November 2019 (has links)
Herbicide resistant weeds are driving implementation of integrated weed management (IWM). A new tactic to manage weeds is harvest weed seed control (HWSC), which targets weed seeds retained on the plant at crop harvest and either destroys, removes, or concentrates them. Research is limited on the effectiveness of HWSC in US cropping systems. For HWSC to be effective it is important to know when and how many seed are shed from a weed species in relation to crop harvest. Research was conducted to quantify when weed seed are shattered from 6 economically important weed species, four broadleaf (redroot pigweed, common ragweed, common lambsquarters, and common cocklebur) and two grass species (large crabgrass and giant foxtail). Results indicate that among summer annuals, broadleaf species retain larger proportions of their seed compared to grass species at the first opportunity for soybean harvest. As harvest was delayed, more seeds shattered from all species evaluated, indicating timely harvest is critical to maximizing HWSC effectiveness. Studies were conducted on grower fields in Virginia to evaluate the effectiveness of HWSC (field residue and weed seed removal). Results indicate that HWSC can significantly reduce populations of Italian ryegrass in wheat and common ragweed in soybean in the next growing season, but reductions were not observed for Palmer amaranth in soybean. Investigating IWM system for common ragweed control in soybean, HWSC was found to be less effective than soybean planting date (i.e. double cropping after wheat) at reducing common ragweed populations. However, the effectiveness of HWSC varied by location. If HWSC adoption were to become widespread, weeds could adapt by shedding seed earlier in the season. Research was conducted by growing Palmer amaranth populations from across the eastern US in a common garden. Currently there are differences in flowering time and seed shatter among Palmer amaranth populations based on the location of the maternal population, indicating potential for adaptation. This research demonstrates that HWSC is a viable option for weed management in US cropping systems but needs to be stewarded like any other weed management tool. / Doctor of Philosophy / Herbicide resistance in weeds is a growing problem in the US and around the world. Alternative methods of weed control must be adopted to maintain crop yields in the presence of herbicide-resistant weeds. Researchers and extension specialists strongly advise growers to adopt an integrated weed management (IWM) approach. Integrated weed management involves implementing multiple weed control tactics during a growing season. By using multiple methods of weed control within a given season the chances of weeds becoming resistant or adapting to any single tactic is reduced. Harvest weed seed control (HWSC) is a new tactic developed in Australia in response to herbicide resistance. HWSC targets weed seeds retained on the plant at crop harvest. In a normal crop harvest, the combine removes the grain and spreads crop residues (leaves, stalks, and other plant parts), including weed seeds, back across the field. When HWSC is implemented, weed seeds are destroyed (narrow windrow burning, cage mills) or concentrated and potentially removed from the field (chaff carts, direct bale, chaff lining). Thus, HWSC limits the number of weed seeds returned to the soil seed bank. There is limited research on HWSC and its integration with other tactics, in US cropping systems. For HWSC to be effective it is necessary for weed seeds to be retained on the mother plant in sufficient quantities at crop harvest. Research was conducted in Virginia to determine when weed seeds are shattered during the soybean growing season for 6 economically important weed species, four broadleaf (redroot pigweed, common ragweed, common lambsquarters, and common cocklebur) and two grass species (large crabgrass and giant foxtail). The broadleaf species retained >85% of their seed until the first opportunity for soybean harvest (mid-October). In the grass species, more seed shattered prior to soybean harvest with 50% of large crabgrass and 74% of giant foxtail seed being retained at the first opportunity for soybean harvest. When harvest was delayed seed continued to shatter and less was captured using HWSC. This research indicates broadleaf species are more suitable candidates for HWSC than grass species, among summer annuals. Further research on the ability of seed to germinate in relation to when seeds were shed was conducted on redroot pigweed, common ragweed and common lambsquarters. Results indicate that there are variable effects on germination of these species depending on when they were shed. HWSC was implemented on grower fields to assess the impact on weed populations of 3 weed species (Italian ryegrass, common ragweed, and Palmer amaranth). These experiments compared conventional harvest and HWSC (field residue and weed seed removal) when all other management strategies were the same within that field. Italian ryegrass tiller density in wheat varied by location but was reduced up to 69% in the spring following implementation of HWSC. By wheat harvest, HWSC reduced Italian ryegrass seed head density 67% at one location compared to conventional harvest. In soybean, common ragweed densities were reduced by 22 and 26% prior to field preparation and postemergence herbicide applications, respectively, in the HWSC plots compared to the conventional harvest plots. No differences were observed in common ragweed density by soybean harvest. No differences were observed with Palmer amaranth densities at any point during the soybean growing season. This research show that HWSC can reduce weed populations but is variable and additional research is still needed. IWM experiments were established across Virginia to compare soybean planting date (full season or double cropped), + cover crop (cereal rye/wheat or no cover), and + HWSC (field residue removal) to evaluate the best management strategy for common ragweed in soybean. Across all locations, double cropping soybean behind wheat had the greatest impact on common ragweed densities at the end of the first season. The impact of double cropping soybeans on common ragweed population is due to the emergence pattern of common ragweed; majority of common ragweed emerges prior to planting double cropped soybean (mid-June to early-July). HWSC was variable and only reduced common ragweed density at one of three locations. Widespread adoption of HWSC could place a selection pressure on weeds to shatter seed earlier in the season. A common garden experiment was conducted in Blacksburg, VA to assess Palmer amaranth populations collected from central Florida to southern Pennsylvania for differences in flowering time, time to seed shatter, and other phenotypic traits. Results indicate that latitude of the maternal population influences time to first flower with a 0.53 d reduction in flowering time for every degree north in latitude the maternal population was collected from. The strongest predictor of Palmer amaranth flowering time was emergence date/daylength. For every day emergence was delayed the time to first flower was reduced by 0.31 and 0.24 d for female and male plants, respectively. Time from emergence or first flower to first seed shatter was reduced by 0.48 or 0.17 d, respectively, for each day emergence was delayed. These results indicate that differences exist currently among Palmer amaranth populations and the selection pressure of HWSC could push these populations to flower and shatter seed early.
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The developmental and genetic basis of explosive pod-shatter in Cardamine hirsutaSarchet, Penny January 2012 (has links)
Dispersal is a key trait across biology. Within plants, a variety of explosive seed dispersal mechanisms are seen. Whilst ecological and mechanical studies have described this important evolutionary adaptation in many species, a genetic and developmental understanding of explosive seed dispersal is lacking. In this thesis, the morphology and development of the explosive seed pods of Cardamine hirsuta – a member of the Brassicaceae – are characterised in detail, with reference to its close relative, the model organism A. thaliana. Comparison of fruit morphology between these two species and across other Brassicacean species generated hypotheses regarding the function and polarity of morphological features. In order to identify genes that are necessary for C. hirsuta fruit development, a genetic screen was conducted and a range of mutants identified and subsequently characterised. Analysis of the indehiscent valveless (val) mutant revealed a loss of valve tissue and an expansion of valve margin identity in the silique. Mapping and sequencing identified a mutation in the MADS-box gene FRUITFULL (FUL), which results in a truncated protein, as the likely cause of the val phenotype. Consideration of ful mutants in C. hirsuta and A. thaliana allowed comparison of the genetic patterning of the fruit dehiscence zone in these two species. The genetic interactions between fruit mutants characterised in this thesis and mutants in shoot patterning genes revealed common regulatory networks underlying leaf and fruit development in C. hirsuta. Together, comparison of wild-type and mutant C. hirsuta siliques with those of A. thaliana and other Brassicacean species suggests that specialised cell layers within the valve silique region are of key importance to C. hirsuta’s explosive dehiscence mechanism.
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Kollision deformation med fokus på solida objektHabib, Hemn January 2007 (has links)
<p>En realistisk simulation kräver att alla simulerade objekten ska interaktivt och dynamiskt animeras. Delar av objektens kropp ska deformeras och andra delar ska sönderfalla vid en krock med ett annat objekt. De flesta 3d applikationer har som gemensamt vissa tekniker som används vid dynamiska simulationer. Tyvärr så finns det inte en smidig och snabb teknik för att deformera solida objekt vid kollisioner, detta gäller även Maya som jag använde i detta arbete. Detta arbete ska visa en smidig teknik att deformera vissa delar av en komplicerad modell och få andra delar att splittras och spridas i en dynamisk simulation som är både fysiskt rätt och ser visuellt bra ut. Resultatet är en kort animationsfilm som visar teknikerna i praktiken. Enskilda användare av 3Dapplikationer exempelvis studenter kommer ha nytta av arbetets olika delmoment och kan hänvisa till informationen.</p>
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Kollision deformation med fokus på solida objektHabib, Hemn January 2007 (has links)
En realistisk simulation kräver att alla simulerade objekten ska interaktivt och dynamiskt animeras. Delar av objektens kropp ska deformeras och andra delar ska sönderfalla vid en krock med ett annat objekt. De flesta 3d applikationer har som gemensamt vissa tekniker som används vid dynamiska simulationer. Tyvärr så finns det inte en smidig och snabb teknik för att deformera solida objekt vid kollisioner, detta gäller även Maya som jag använde i detta arbete. Detta arbete ska visa en smidig teknik att deformera vissa delar av en komplicerad modell och få andra delar att splittras och spridas i en dynamisk simulation som är både fysiskt rätt och ser visuellt bra ut. Resultatet är en kort animationsfilm som visar teknikerna i praktiken. Enskilda användare av 3Dapplikationer exempelvis studenter kommer ha nytta av arbetets olika delmoment och kan hänvisa till informationen.
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Shattering Kraft Recovery Boiler Smelt by a Steam JetTaranenko, Anton 19 March 2013 (has links)
Kraft recovery boiler smelt is shattered into small droplets by an impinging steam jet to prevent smelt-water explosions in the dissolving tank. Inadequate shattering increases the likelihood of dissolving tank explosions. While industry has not dedicated much effort to smelt shattering, the safety implications require smelt shattering to be studied in detail. An experimental set-up was constructed to simulate the shattering operation using a water-glycerine solution and air instead of smelt and steam respectively. The objective was to examine how physical properties and flow characteristics affect shattering. It was
found that increasing shatter jet velocity greatly reduced droplet mean diameter.
Increasing the liquid flow rate greatly increased droplet size, as expected. Shattering was not significantly affected by viscosity, unless a weak shatter jet was used on a highly viscous fluid. Increasing the proximity of the shatter jet nozzle decreased droplet size.
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Shattering Kraft Recovery Boiler Smelt by a Steam JetTaranenko, Anton 19 March 2013 (has links)
Kraft recovery boiler smelt is shattered into small droplets by an impinging steam jet to prevent smelt-water explosions in the dissolving tank. Inadequate shattering increases the likelihood of dissolving tank explosions. While industry has not dedicated much effort to smelt shattering, the safety implications require smelt shattering to be studied in detail. An experimental set-up was constructed to simulate the shattering operation using a water-glycerine solution and air instead of smelt and steam respectively. The objective was to examine how physical properties and flow characteristics affect shattering. It was
found that increasing shatter jet velocity greatly reduced droplet mean diameter.
Increasing the liquid flow rate greatly increased droplet size, as expected. Shattering was not significantly affected by viscosity, unless a weak shatter jet was used on a highly viscous fluid. Increasing the proximity of the shatter jet nozzle decreased droplet size.
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