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Effect of low temperature on boron nutrition of oilseed rape and sunflowerZhengqian Ye January 2004 (has links)
Several reports appear in the literature linking low temperature damage in plants with boron (B) deficiency and alleviation of low temperature injury with B application has been reported in some crops and trees. These results imply that low temperature might increase plant B requirements, beside the reduction of B uptake by plant roots, or that low B tissues might be more sensitive to cold temperature damage than B adequate tissues. In controlled experiments, it has been shown that low root zone temperature (RZT) induces B deficiency in cassava, a tropical root crop. Apart from this, there are few definitive detailed investigations on low temperature effects on B nutrition of plants, including temperate species which are more tolerant of low temperature.
Winter oilseed rape (Brassica napus L.), a crop sensitive to low B supply, is a major crop in the middle and lower Yangtse river basin, China, where low B soils are widespread. Appearance of B deficiency in oilseed rape often coincides with cold weather during its winter and spring growth. However, the incidence and severity of B deficiency of oilseed rape plants and the efficacy of B fertilization varies from year to year and location to location in ways that are not explained simply by differences in cultivar, agronomy or soil B levels. Low temperature is probably one of the important environmental factors influencing growth and yield of oilseed rape in relation to B nutrition.
Therefore,the objective of the studies in this thesis was to investigate mechanisms of low temperature effects on B nutrition of plants with emphasis on oilseed rape. Field and glasshouse experiments were carried out and the physiological basis of plant response to B at different air and root temperatures is discussed.
A field experiment with oilseed rape cv. Zheyouyou 2 was carried out on a red soil (Hapludult, US Soil Taxonomy) with low B availability in Zhejiang province, China. Canopy covers made from transparent plastic sheets, which increased night temperatures by up to 1.5 oC around shoots for 15 days in early February, strongly increased shoot dry weight at all levels of B supply. Furthermore, covering plants increased shoot dry weight of B deficient plants without increasing their leaf B concentration. This suggests that internal B requirements were decreased by canopy covering, possibly due to higher temperatures within the canopy.
Experiments conducted to investigate the effect of RZT (10 and 20n oC) on oilseed rape cv. Hyola 42 response to B in solution culture, in summer and winter, showed that regardless of canopy conditions, low RZT (10 oC) promoted the distribution of shoot B towards the actively growing leaves, especially when B supply was low. At low B supply, B deficiency symptoms appeared later at 10 oC than 20 oC RZT and B concentrations in the youngest fully opened leaves (YOL) were higher in plants grown at RZT of 10 oC than that at 20 oC. Growth of plant dry weight (DW) was not affected
by RZT in the summer but was greatly reduced at 10 oC than 20 oC in winter. In B adequate plants, shoot to root ratio (S/R ratio) was not affected by RZT regardless of canopy conditions. By contrast, S/R ratio was smaller in low B plants at 10 oC than 20 oC. In addition, low RZT delayed occurrence of plant B deficiency symptoms regardless of plants¡¦ pre-treatment RZT (either 10 or 20 oC). These results appeared to contradict the response to low RZT found in previous studies with cassava.
In a subsequent experiment, low RZT of 5 oC not only greatly reduced plant DW production of oilseed rape, but also accentuated plant B deficiency. Partitioning of B into the young growing shoots was also depressed and a significant decrease of B concentration in the youngest shoot parts was caused by 5 oC RZT in comparison with that at the control RZT (10 oC). Similar results were also observed in sunflower (Helianthus annuus L. cv. Hysun 25). But B deficiency symptoms in sunflower were induced by RZT as high as 12 oC, when plants were supplied with 0.25 £gM B, whilst these plants were free from B deficiency at warmer RZT (17 - 27 oC). Higher external B concentrations were required at such RZT (Chilling temperature) for plant growth free from B deficiency. Therefore, there is a RZT threshold below which an increased response to B is expected in plants of oilseed rape and sunflower. And in the range of chilling RZT, the external B requirement for shoot growth increased with lower RZT. The threshold RZT was considerably higher in the chilling-sensitive plant species, sunflower, than in oilseed rape, a chilling-resistant plant species.
At chilling RZT, leaf functioning was impaired by low B supply as measured by potassium (K) leakage from the youngest mature leaf blade (YML) of sunflower, whereas it was much less directly affected by RZT, and there was no effect of RZT on B- adequate plants. By contrast to leaves, root function was impaired more by chilling RZT than low B.
Despite their different threshold RZT, in both oilseed rape and sunflower, the rates of B uptake (BUR) and B translocation from root to shoot (BTR) were dramatically depressed by chilling RZT especially at low B supply (0.2 £gM B): being only 30% of those at the control (5 oC vs 10 oC RZT) in oilseed rape and 33% (10 oC vs 20 oC RZT) in sunflower, respectively. By contrast, there was little or no difference over a range of warmer RZT (10 - 20 oC for oilseed rape, and 20 ¡V 27 oC for sunflower). It is predicted that higher rates of B application will be required for plant growth when soil temperature is below a critical threshold, which is between 5 and 10 oC for oilseed rape, and about 17 oC for sunflower, respectively. Below the threshold RZT plant B deficiency was induced and accentuated due to impairment of B translocation into growing shoot parts besides the decrease of B uptake rate and B transport rate and greater shoot to root ratio.
In comparison with RZT, little is known about causal mechanisms linking cold air temperature and B nutrition. Experiments in this thesis showed not only B transport to the shoot was strongly reduced by low night air temperature during a 6 day period (11.719.4 vs 15.5 ¡V 23.5 oC), but also that an overnight chilling (at 0 oC) could cause more severe injury to low B than adequate B leaves of oilseed rape plants, expressed by higher solute leakage, in comparison with control (at 10 oC). Moreover, after chilling treatment, solute leakage from low B leaves was increased by exposure to light, which suggests that low temperature injury to leaves in low B plants after a freezing night in the field is at least partly a consequence of light induced damage of leaves.
In summary, at chilling temperature, B uptake, transport and partitioning into growing shoots are strongly impaired, and B use efficiency in the growing tissues might be reduced as well. Low temperature contributes to plant B deficiency also by increasing S/R ratio, so that shoot B demand is not satisfied by available B. Furthermore, low air temperature might increase the internal B requirement for shoot growth. To further understand mechanisms of low temperature, especially the air temperature, effects on plant responses to B, more research is needed, such as the relationship between low temperature and B incorporation into cell walls which may play an important role in leaf tolerance to chilling temperature.
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Qualidade fisiol?gica e atividade enzim?tica de sementes de gergelim ap?s o teste de envelhecimento acelerado / Physiological quality and enzymatic activity of sesame seeds after the accelerated aging testRocha, Adriana de Souza 24 September 2016 (has links)
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Previous issue date: 2016 / Universidade Federal dos Vales do Jequitinhonha e Mucuri (UFVJM) / Funda??o de Amparo ? Pesquisa do Estado de Minas Gerais (FAPEMIG) / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior (CAPES) / A cultura do gergelim, Sesamum indicum L. possui grande potencial econ?mico devido a demanda, tanto nacional como internacional, de suas sementes que cont?m cerca de 50% de teor de ?leo, sendo uma das principais raz?es que estimulam o seu cultivo. No entanto, informa??es sobre metodologias para avalia??o da qualidade de sementes dessa cultura s?o escassas. Dessa forma, objetivou-se adequar as metodologias dos testes de envelhecimento acelerado para sementes de gergelim e investigar altera??es no comportamento de isoenzimas das sementes submetidas ao teste. Foram utilizados quatro cultivares de sementes de gergelim da safra 2014/2015. Foi utilizado o delineamento inteiramente casualizado. Para caracteriza??o fisiol?gica das sementes realizou-se a determina??o do grau de umidade e os testes de primeira contagem de germina??o, ?ndice de velocidade de germina??o, emerg?ncia, estande inicial e ?ndice de velocidade de emerg?ncia. Foi tamb?m realizada a an?lise eletrofor?tica das isoenzimas super?xido dismutase, esterase, catalase, ?lcool desidrogenase, malato desidrogenase e isocitrato liase. Para o teste de envelhecimento acelerado, as sementes foram submetidas ao m?todo tradicional e com solu??o saturada de NaCl, pelos per?odos de envelhecimento de 0; 24; 48; 72 e 96 horas. Concluiu-se que ? poss?vel avaliar o vigor de sementes de gergelim pelo teste de envelhecimento acelerado, pelo m?todo tradicional por 72 horas e com solu??o saturada de NaCl a 45 ?C por 48 horas. Quando associado ? atividade das isoenzimas EST, CAT, ADH e ICL foi poss?vel visualizar que houve varia??o significativa na intensidade da express?o das bandas conforme avan?a o processo deteriora??o das sementes. / Disserta??o (Mestrado) ? Programa de P?s-Gradua??o em Produ??o Vegetal, Universidade Federal dos Vales do Jequitinhonha e Mucuri, 2016. / The sesame (Sesamum indicum L.) crop has great economic potential due to the demand, both nationally and internationally, for its seeds, which contains about 50% oil, and this is one of the main reasons that encourage its cultivation. However, information on methodologies for the assessment of quality seeds of this culture are scarce. Therefore, the objective of this study was to adapt the methods of accelerated aging tests for sesame seeds and investigate changes in the behavior of isoenzymes submitted to the test. Four sesame seed cultivars of the 2014/2015 crop were used. To characterize the profile of cultivars, the degree of moisture and the first count of germination were determined, besides germination, germination speed index, emergency, initial stand and emergence speed index. The electrophoretic analysis of isoenzymes superoxide dismutase, esterase, catalase, alcohol dehydrogenase, malate dehydrogenase and isocitrate lyase was also performed. For the accelerated aging test, the seeds were subjected to the traditional method, with a saturated NACl solution, at aging times of 0; 24; 48; 72 and 96 hours. It was concluded that it is possible to evaluate the effect of sesame seeds by accelerated aging tests by the traditional method for 72 hours and saturated NaCl solution at 45 ?C for 48 hours. When associated with the activity of isozymes EST, CAT, ADH and ICL, it was possible to observe that there was a significant variation in the intensity of expression of the bands as the seed deterioration process progresses.
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STUDIES ON THE PHYSIOLOGY OF BUFFALO GOURD CUCURBITA FOETIDISSIMA HBK.Scheerens, Geraldine Ann. January 1984 (has links)
No description available.
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Isolation of extC, an extensin gene from Brassica napusSidik, Nik Marzuki January 1998 (has links)
No description available.
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Assessing the drought risk of oilseed rape to target future improvements to root systemsHess, Linde January 2011 (has links)
The yield of UK’s commercial oilseed rape (Brassica napus) crops has not increased over the last three decades, while a significant increase in yield has been found in trials that test new varieties before they enter the market. It has been suggested that oilseed rape is susceptible to drought and that this may contribute to the poor yield of some commercial crops. A thorough literature review revealed that there is little information on the water relations of oilseed rape crops and in particular on root growth and function and thus no strong evidence to support the above hypothesis. The aim of this thesis was to investigate root function and water relations of oilseed rape to determine whether it is more sensitive to drought than wheat, a crop species grown in rotation with oilseed rape. The water relations of wheat (Triticum aestivum L. cv. Tybalt) and oilseed rape (Brassica napus L. cv. SW Landmark) were compared in a lysimeter experiment conducted in an open sided glass house to test the hypothesis that oilseed rape was more sensitive to drying soil than wheat. Plants were grown with or without irrigation at a population density equivalent to that of commercial field crops. Irrigated oilseed rape crops transpired more water than wheat crops and oilseed rape showed a greater reduction in growth when water was withheld. The onset of drought also occurred slightly earlier in oilseed rape. In a separate experiment the root hydraulic conductance of oilseed rape, measured on a root surface area basis, was about twice that of wheat (113.1 ± 20.0 mlNm-2Nh-1NMPa-1 for oilseed rape and 53. 5 ± 10.6 for wheat). These results suggest that oilseed rape needs a less dense root system for water extraction than wheat. In the above experiment plants were grown in relatively loose soil repacked into the lysimeters. It has been suggested that oilseed rape is particularly sensitive to soil compaction, which may be a common occurrence in commercial fields. Therefore the sensitivity of oilseed rape and wheat growth to compaction was compared in an experiment under well-watered conditions. Plants were grown in a controlled environment chamber in pots packed with soil at four different bulk densities. Although the root length, shoot mass, leaf area and stomatal conductance of oilseed rape were all reduced by soil compaction, oilseed rape was no more sensitive to soil compaction than wheat under these well-watered conditions. When soil dries it also hardens and high soil strength is known to impede root growth and alter plant-water relations. The hypothesis that oilseed rape is more sensitive to increasing soil strength than wheat was tested in an experiment in which soil bulk density and soil water content were varied to create a range of soil strengths. At low soil strength oilseed rape had a greater stomatal conductance than wheat, but as soil strength increased, stomatal conductance decreased to a greater extent in oilseed rape, indicating a more sensitive response. In dense or strong soil, plants often rely on pores created by earthworms or roots of the previous crop to explore the soil volume. The ability of oilseed rape and wheat to exploit soil pores to penetrate hard soil layers was compared in a pot experiment. A hard layer, comparable to a hard–pan in a cultivated field, was created at twelve centimetre depth of each pot by packing the soil to a bulk density of 1.5 g·cm-3 relatively loose soil at a bulk density of 1.1 g·cm-3 was present above and below the layer. In one treatment seven pores were drilled through the hard layer; controls had none. Presence of pores in the hard layer led to a significant increase in number of roots in the deeper soil, of 29% for wheat and 54% for oilseed rape. This project has shown that the physiological response to drought occurred earlier in oilseed rape than in wheat and that stomatal conductance and biomass production of oilseed rape reacted more sensitively to soil drying. However, water use by oilseed rape does not seem to be limited by the ability of its roots to explore the soil and transport water compared to wheat. The growth and distribution of roots under a range of soil conditions was as good as, if not better than, that of wheat. The implications of these findings for the commercial production of oilseed rape in the UK are discussed.
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Efficacy of fungicides on coexisting Leptophaeria spp. causing phoma stem canker on winter oilseed rapeSewell, Thomas Richard January 2017 (has links)
Phoma stem canker is a disease of oilseed rape (Brassica napus) caused by closely related plant pathogens Leptosphaeria maculans and L. biglobosa. It is an economically important disease, causing annual yield losses of approximately £770 million worldwide. When colonising oilseed rape, L. maculans and L. biglobosa exist in close proximity on the leaf, competing for resources as they move through the main leaf vein and into the stem. Fungicides are commonly used to decrease severity of phoma stem canker on oilseed rape. However, the efficacy and longevity of active chemicals is under threat from evolution of resistance in pathogen populations and government legalisation. Moreover, it has been suggested that both L. maculans and L. biglobosa differ in their sensitivity to azoles, and important class of fungicides that are used to control the disease through the inhibition of lanosterol 14-α demethylase (erg11, CYP51). This project aims to further understand the role that fungicides have in controlling phoma stem canker by investigating their efficacy against L. maculans and L. biglobosa in crops, in vitro and in planta. In field experiments, established in Cambridgeshire across four cropping seasons, the fungicide mixture penthiopyrad (SDHI) plus picoxystrobin (QoI) was as effective at controlling phoma leaf spotting and phoma stem canker in winter oilseed rape as prothioconazole (DMI), suggesting that both fungicides could be used to reduce phoma stem canker symptoms. The two pathogens differed in their growth rates in vitro, with L. biglobosa growing faster than L. maculans when untreated or treated with lower fungicide concentrations. Fungicide sensitivity assays suggest that L. maculans and L. biglobosa are both sensitive to DMI, SDHI and QoI fungicides and that differences between the species are minor. Prothioconazole and penthiopyrad + picoxystrobin had a similar efficacy on oilseed rape cotyledons colonised with either L. maculans or L. biglobosa. There was no difference between species on prothioconazole treated plants, although there was a difference between L. maculans and L. biglobosa when treated with 20 μg/ml penthiopyrad + picoxystrobin. Heterologous yeast expression of LmCYP51B and LbCYP51B with fungicide sensitivity testing of the yeast transformants suggests that LmCYP51B and LbCYP51B are similarly sensitive to azole fungicides flusilazole, prothioconazole-desthio and tebuconazole. These findings are supported by homology protein modelling, which predicts that LmCYP51B and LbCYP51B are structurally very similar, specifically at the azole-binding site. In conclusion, fungicides are still an effective control method for reducing phoma stem canker symptoms caused by Leptosphaeria species in the UK, and a useful tool to in the sustainable production of oilseed rape.
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Selecting donor inbred lines for enhancing the performance of single-cross hybrids from key heterotic groups of oilseed sunflower (Helianthus annuus L.)Cheres, Mercy Tuiya 28 May 1998 (has links)
Graduation date: 1999
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Field plot conditions for the expression and selection of straw fibre concentration in oilseed flaxBurton, Alison Dana 30 August 2007
In Canada, flax (<i>Linum usitatissimum</i> L.) is grown for its seed oil. However, a major disadvantage associated with growing oilseed flax is that the straw is difficult to incorporate into the soil after harvest. Instead, the majority of flax straw is burned in the field, increasing the workload for farmers, as well as creating air pollution. Agronomic concerns are also associated with burning, since it leaves fields vulnerable to wind and water erosion. A small market exists for Canadian flax straw for making high quality paper products and some plastic composites. However, fibre-based and fibre-using industries are growing world wide, and flax straw fibre is becoming an important product. Flax straw fibre concentration varies among cultivars and environments. Consistently high fibre concentrations are essential if the fibre in oilseed flax is to become an important product for Canadian farmers. This study assembled the agronomic information necessary to select for increased straw fibre concentration in the Crop Development Centre (CDC) Flax Breeding Program. Three experiments were conducted to determine: how seeding rate and row spacing effects straw fibre concentration, the effects of seeding date on straw fibre concentration, and how nitrogen fertilizer rates effects straw fibre concentration. Seeding in mid-May at either an 18 or 36 cm row spacing at a seeding rate of 30 or 45 kg/ha resulted in high straw fibre concentration without reducing other important oilseed characteristics such as seed yield, oil content and straw fibre yield. Nitrogen fertilizer did not have an effect on either straw fibre concentration or straw fibre yield.
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Manipulation of ruminal fermentation to alter milk fatty acid composition in dairy cowsHobin, Morgan Rachelle 03 September 2009
The objective of this study was to determine the effects of method of barley grain processing (dry-rolled vs. pelleted barley) and source of oilseed (ground canola vs. ground flaxseed), arranged as a 2 x 2 factorial, on feed intake, ruminal fermentation, nutrient flow to the duodenum, and milk production and composition in dairy cows. Eight Holstein cows (655 ± 69 kg; 83 ± 16 DIM) were used in a replicated 4 x 4 Latin square with 28-d periods. Cows in one square were fitted with ruminal and duodenal cannulae. Cows fed dry-rolled barley consumed 1.8 to 3.5 kg/d more (P = 0.02) DM than those fed pelleted barley; however, source of supplemental dietary fat had no effect on DM intake. Ruminal pH was lower (P = 0.045) in cows fed pelleted barley compared to those fed dry-rolled barley. Ruminal concentration of acetate was greater (P = 0.001), whereas ruminal concentration of propionate tended to be lower (P = 0.11), in cows fed dry-rolled barley compared to those fed pelleted barley; consequently, the acetate:propionate ratio was higher (P = 0.01) in cows fed dry-rolled barley compared to those fed pelleted barley. Ruminal concentration of total VFA was unaffected (P > 0.05) by diet. Source of dietary fat had no effect on ruminal digestion of OM, NDF, ADF or starch; however, ruminal starch digestion was slightly higher in cows fed pelleted barley compared to those fed dry-rolled barley (90.8 vs. 89.5%). Total dietary fatty acid intake was higher (P < 0.05) in cows consuming dry-rolled barley compared to those fed pelleted barley. Duodenal flow of C18:0 was lower, whereas that of C18:2n6c was higher (P < 0.05) in cows fed pelleted barley compared to those fed dry-rolled barley. Feeding flaxseed increased duodenal flows of C18:3n3, cis-9, trans-11 and trans-10, cis-12 conjugated linoleic acid compared to feeding canola. Milk yield was unaffected (P > 0.05) by diet; however, milk
fat content was higher (P = 0.004) in cows fed dry-rolled barley compared to those fed pelleted barley. Milk fat content of C18:3 was higher (P = 0.005) in cows fed canola compared to those fed flax. Milk fat content of C18:3 and cis-9, trans-11 C18:2 were higher in cows fed pelleted barley compared to those fed dry-rolled barley with flax as the source of oilseed, but not with canola (interaction, P < 0.01). Milk fat content of saturated fatty acids decreased (P < 0.001) and that of polyunsaturated fatty acids increased (P = 0.003) in cows fed pelleted barley compared to those fed dry-rolled barley. In summary, milk fatty acid profiles were altered by method of grain processing and source of oilseed.
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Inheritance of erucic acid in <i>brassica carinata</i> a braun and development of low glucosinolate linesAlemaw, Getinet 01 January 1996 (has links)
<p>Ethiopian mustard (<i>Brassica carinata</i> A. Braun) or gomenzer is an oilseed crop that is well adapted to the highlands of Ethiopia. Evaluation of the local germplasm has resulted in the registration of high yielding cultivars, such as Dodolla and S-67. The oil of gomenzer contains about 40% erucic acid and the meal is high in glucosinolates. The objective of this research was to study the inheritance of erucic acid content in gomenzer and to introgress genes for the non2-propenyl glucosinolate trait from <i>B. napus</i> and <i>B. juncea</i>. The erucic acid content of F<sub>1</sub> seed from reciprocal crosses between the high erucic acid cultivars Dodolla and S-67 and zero erucic acid line C90-14 was intermediate between the parents indicating that erucic acid content in B. carinata was controlled by two nondominant genes with two alleles acting in an additive manner. Backcross F<sub>1</sub> seed derived from the backcross to the low erucic acid parent fell into three erucic acid classes with $<$0.5%, 6 to 16% and $>$16% erucic acid at the ratio of 1:2:1 indicating that erucic acid was under the control of two alleles each of at two loci. F<sub>2</sub> seed segregation data supported this observation. Each allele contributed approximately 10% erucic acid. The high glucosinolate B. carinata line C90-14, low glucosinolate <i>B. napus</i> cultivar Westar and <i>B. juncea</i> line J90-4253 were chosen as parents for the development of non2-propenyl glucosinolate <i>B. carinata</i>. The objective was to transfer genes for non2-propenyl glucosinolate content from <i>B. napus</i> and <i>B. juncea</i> into <i>B. carinata.</i> Interspecific crosses were made between <i>B. carinata</i> and <i>B. napus</i>, <i>B. carinata</i> and <i>B. juncea</i> and the interspecific F<sub>1</sub> generations were backcrossed to <i>B. carinata</i>. Backcross F<sub>1</sub> plants from the two interspecific crosses were intercrossed in an attempt to combine the two sources for non2-propenyl glucosinolate content in one genotype. Seed of backcross F<sub>1</sub> plants of the cropss ((<i>B. carinata</i> x <i>B. napus</i>) x <i>B. carinata</i>) contained a high concentration of 2-propenyl glucosinolate similar to those of <i>B. carinata</i>. Introgression of C genome chromosomes of <i>B. napus</i> into <i>B. carinata</i> was not effective in redirecting glucosinolate synthesis away from 2-propenyl and into 3-butenyl glucosinolate. This indicated that C genome chromosomes do not contain genetic factors for C3 $\to$ C4 glucosinolate precursor chain elongation, and that 2-propenyl glucosinolate synthesis is primarily controlled by genes on B genome chromosomes. Seed of ackcross F<sub>2</sub> plants of the cross ((<i>B. carinata</i> x <i>B. juncea</i>) x <i>B. carinata</i>) contained much reduced levels of 2-propenyl glucosinolate indicating that genetic factors for C3 $\to$ C4 glucosinolate precursor chain elongation were introgressed from the B genome of <i>B. juncea</i> into the B genome of <i>B. carinata</i>. However, a complete diversion of glucosinolate synthesis from 2-propenyl to 3-butenyl was not achieved. Further selections in segregating F<sub>4</sub> and F<sub>5</sub> generations of <i>B. juncea</i> derived <i>B. carinata</i> populations could yield the desired zero 2-propenyl glucosinolate B. carinata. The double interspecific cross was unsuccessful.
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