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The genetics and molecular mechanisms of tolerance to 2,4-dichlorophenoxyacetic acid (2,4-D) in upland cotton (Gossypium hirsutum L.)Perez, Loida Moreno 30 April 2021 (has links)
Upland cotton, Gossypium hirsutum L., is a natural source of fiber and a major row crop in the US with an estimated $7 billion raw product value in 2019. However, it is extremely sensitive to the broadleaf herbicide 2,4-dichlorophenoxyacetic acid (2,4-D). With the evolution of herbicide-resistant weeds compounded by off-target spray damage on conventional cotton varieties outside the transgenic Enlist technology (Dow Agrosciences) of herbicide-tolerant cotton varieties (Dow Agrosciences), there is a need to identify and develop novel sources of herbicide tolerance gene for upland cotton genetic improvement. Cotton chromosome substitution (CS) lines carry introgressions from other cultivated and wild allotetraploid Gossypium species that could be sources of novel and exotic alleles for herbicide tolerance. A total of 50 CS lines of G. barbadense L. (CS-B), G. tomentosum Nuttal ex Seeman (CS-T), and G. mustelinum Meers ex Watt (CS-M), in the genetic background of G. hirsutum L. Texas Marker-1 (TM-1) were screened for resistance to a field-recommended rate (1.12 kg ae ha-1) of 2,4-D in the greenhouse. Seven CS lines, CS-T04-15, CS-B12, CS-B15sh, CS-T04, CS-B22sh, CS-T07, and CS-B04-15 with the lowest injury were evaluated for tolerance at four and seven weeks after seedling emergence under field conditions. Progeny tests conducted in the greenhouse validated 2,4-D tolerance of CS-B15sh, showing 41% lower injury than TM-1. Novel variants of CS-T04-15 and CS-T07 were identified with complete tolerance to the herbicide but are segregating. Uptake and translocation of 14C-labeled 2,4-D indicated that reduced translocation of 2,4-D may be the 2,4-D tolerance mechanism in CS-T04-15 and CS-T07, while gene(s) associated with metabolism and reduced auxin transport appeared associated with the 2,4-D tolerance in CS-B15sh. Transcriptome analysis revealed differential expression of genes in 2,4-D-treated CS-B15sh and TM-1 with several components of the 2,4-D/auxin response pathway, including ubiquitin E3 ligase, PB1|AUX/IAA, ARF transcription factors, and F box proteins of the SCFTIR1/AFB complex being up-regulated. Functional annotation of differentially expressed genes revealed down-regulation of auxin transport, suggesting a potential linkage with tolerance mechanism involving altered movement of 2,4-D in CS-B15sh. The selected highly tolerant cotton CS lines will need to be confirmed further using molecular assays.
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Monocot and dicot weed control with mixtures of quizalofop and florpyrauxifen-benzyl in the Provisia(TM) rice systemSanders, Tameka LaShea 09 August 2019 (has links)
Quizalofop and florpyrauxifen-benzyl are both new herbicides for rice in the midsouthern U.S. Quizalofop is only effective for control of monocot weed species; therefore, mixtures of florpyrauxifen-benzyl with quizalofop could be beneficial in acetyl CoA carboxylase (ACCase)-resistant rice. Field experiments were conducted at the Delta Research and Extension Center in Stoneville, MS, in 2017 and 2018 to evaluate control of monocot and dicot weed species with sequential applications of quizalofop including auxinic herbicides in the first or second treatment. Other field experiments in 2017 and 2018 evaluated sequential applications of different rates of quizalofop with florpyrauxifen-benzyl included in treatments immediately prior to flooding. A final field experiment in 2017 and 2018 evaluated growth and yield of six ACCase-resistant rice cultivars and advanced lines following POST applications of florpyrauxifen-benzyl.
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Multiple-resistant Italian ryegrass (Lolium perenne spp. multiflorum) populations in OregonLiu, Mingyang 28 February 2013 (has links)
Italian ryegrass (Lolium perenne spp. multiflorum) is a common weed management problem in turfgrasses, cereals and non-crop areas in the United States. In Oregon, the number of populations with multiple-resistance continues to increase. To manage these resistant populations, the resistance patterns must be determined. In this study, five Italian ryegrass populations (CT, R1, R2, R3 and R4) from two cropping systems were studied for resistance patterns and mechanisms. The CT population is from a Christmas tree plantation and was resistant to at least six herbicides with four different mechanisms of action: atrazine, diuron (2.4-fold), glyphosate (7.4-fold), hexazinone (3.1-fold), imazapyr (1.8-fold), and sulfometuron. The resistant indices (RI) for sulfometuron and atrazine could not be calculated because 50% growth reduction for the CT population was not reached even with the highest rates applied, 17.6 kg ai ha⁻¹and 16 kg ai ha⁻¹, respectively, which are 16 times the recommended field application rates for this two herbicides. The CT population accumulated less shikimate than the S population. There were two mutations in the CT population, Trp591 to Leu in the ALS gene and Ser264 to Gly in the psbA gene, which explain the ALS and PII cross resistance, respectively. R1, R2, R3 and R4 were collected from annual cropping systems. All four populations were resistant to flufenacet. RIs for two populations, R2 and R4, were 8.4 and 5.9, respectively. R2 and R4 also were resistant to mesosulfuron-methyl, pinoxaden, quizalofop and clethodim. R4 was resistant to diuron, but R2 was not. An Asp-2078-Gly substitution in the ACCase gene was found in both R2 and R4 populations, while another Ile-2041-Asn substitution in the ACCase gene was found in the R4 population. These mutations explain the ACCase cross resistance in the R2 and R4 populations. The mechanisms for the glyphosate resistance in the CT population and the flufenacet resistance in R1, R2, R3 and R4 populations were not identified in this study. None of the five populations were resistant to the herbicide pyroxasulfone. / Graduation date: 2013
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Aspectos fisiológicos e bioquímicos de Emilia coccinea (Sims) F. Don e Digitaria horizontalis Willd. submetidas à mistura de clomazone+ametrina. / Phisiological and biochemistry aspects of Emilia coccinea (Sims) F. Don and Digitaria horizontalis Willd. Submetidas submitted to mix of clomazone+ametryn.Souza, Renan Cantalice de 17 December 2009 (has links)
Purpose of this research was to investigate physiological differences between monocots
(Digitaria horizontalis) and dicots (Emilia coccinea) in function on the application of the
mixture of herbicides clomazone + ametryn and its relation with mortality of these species.
For this, conducted two experiments, one for each species, where was applied the herbicide
mixture in four doses: 0 (water); 2.5 L. ha-1 (0.5 kg a.i ha-1 of clomazone + 0.75 kg a.i.ha-1
of ametrina) ; 5 L. ha-1 ( 1 kg a.i ha-1 of clomazone + 1.5 kg a.i ha-1 of ametrina) e 10 L. ha-
1 (2 kg a.i ha-1 of clomazone + 3 kg a.i ha-1 of ametrina), when the plants were 30 days
after sowing. Physiological variables studied were levels of photosynthetic pigments,
chlorophyll fluorescence emission, superoxide dismutase (SOD) activity, ascorbate
peroxidase (APX) activity, electrolyte leakage and lipid peroxidation 72 hours after the
apliccation. After 25 days of the application were counted the frequency of dead plants and
dry matter accumulation per plant. The data were submitted to analysis of variance and
exponential or linear regression analysis. The total chlorophyll and carotenoids decreased
exponentially with increasing doses of the mixture in the two species studied. The values
of maximum fluorescence (Fm), maximum quantum yield (Fv/Fm) and effective quantum
yield (YIELD) also decreased exponentially for both species, since the minimal
fluorescence (Fo) decreased linearly for both. The SOD activity decreased linearly in both
species, but this decrease was more pronounced in monocots. The APX showed no
significant change in its activity. The dicots showed a linear increase more pronounced in
electrolyte leakage compared with the monocot. For lipid peroxidation, the species were
similar to those electrolyte leakage. In relation to plant mortality, the dose of 10 L.ha-1
eliminated only 53.84% of the population of D. horizontalis while the same dose for E.
coccinea eliminated 100% of the population. Given the observations, concluded that the
species that suffered the greatest damage of the cell membrane was obtained more
reduction in dry matter per plant and a higher percentage of mortality. And other
mechanisms than those evaluated in this study may be related to increased tolerance of D.
horizontalis to mixture of ametryn+clomazone. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O objetivo da pesquisa foi verificar diferenças fisiológicas entre mono (Digitaria
horizontalis) e dicotiledôneas (Emilia coccinea) em função da aplicação da mistura de
herbicidas clomazone+ametrina e sua relação com a mortalidade dessas espécies. Para isso,
foram realizados dois experimentos, um para cada espécie, onde aplicou-se a mistura de
herbicidas clomazone e ametrina, em quatro doses: 0 (água); 2,5 L. ha-1 (0,5 kg i.a ha-1 de
clomazone + 0,75 kg i.a.ha-1 de ametrina) ; 5 L. ha-1 ( 1 kg i.a ha-1 de clomazone + 1,5 kg
i.a ha-1 de ametrina) e 10 L. ha-1 (2 kg i.a ha-1 de clomazone + 3 kg i.a ha-1 de ametrina),
aos 30 dias após a semeadura. As variáveis fisiológicas estudadas foram: teores de
pigmentos fotossintéticos, emissão da fluorescência da clorofila a, proteínas solúveis,
atividade da superóxido dismutase (SOD), atividade da ascorbato peroxidase (APX),
extravasamento de eletrólitos e peroxidação de lipídeos 72 horas após a aplicação. Após 25
dias da aplicação foi contabilizada a frequência de plantas mortas e a matéria seca
acumulada por planta. Os dados foram submetidos à análise de variância e análise de
regressão exponencial ou linear. Os teores clorofila totais e carotenóides decresceram
exponencialmente com o aumento das doses da mistura de herbicidas, nas duas espécies
estudas. Os valores do rendimento quântico potencial (Fv/Fm), rendimento quântico
efetivo (YIELD) e fluorescência máxima (Fm) também decresceram exponencialmente
para as duas espécies, já a fluorescência inicial (Fo) decresceu linearmente para ambas. A
atividade da SOD decresceu linearmente em ambas as espécies, porém esse decréscimo foi
mais acentuado na monocotiledônea. Não houve alteração significativa da atividade da
APX. A dicotiledônea apresentou aumento linear mais acentuado no extravasamento de
eletrólitos comparado com a monocotiledônea. Para a peroxidação de lipídios, as espécies
apresentaram comportamento semelhante aos de extravasamento de eletrólitos. Em relação
à mortalidade das plantas, a dose de 10 L.ha-1 eliminou apenas 53,84% da população de D.
horizontalis enquanto a mesma dose eliminou 100% da população de E. coccinea. Diante
das observações, conclui-se que a espécie que sofreu maior dano de membranas celulares
foi a que obteve maior redução na meteria seca por planta e maior percentual de
mortalidade. Outros mecanismos que não os avaliados nessa pesquisa podem estar
relacionados com a maior tolerância de D. horizontalis à mistura de ametrina+clomazone.
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Identificação de espécies, suscetibilidade a herbicidas e habilidade competitiva de milhã (Digitaria spp.) no Estado do Rio Grande do Sul / Species identification, herbicide susceptibility and competitive ability of crabgrass (Digitaria spp.) in Rio Grande do SulFontana, Lisiane Camponogara 28 September 2011 (has links)
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Previous issue date: 2011-09-28 / Crabgrass is within the group of the most damaging weed species in the agricultural area of RS, occuring on rainfed and irrigated crops, causing harm to these cultures. The objectives of this study were to identify the species of Digitaria occurring in agricultural areas of RS, to evaluate their susceptibility to herbicides, to compare the relative competitive ability between large crabgrass and soybeans and rice, to determine the competition periods of large crabgrass in these cultures. The species D. ciliaris occurs throughout the RS, predominantly in areas of the soybean crop in the northern half of the state, where D. bicornis also occurs. In the region of rice, the southern half of RS, and D. ciliaris, there is D. sanguinalis, while the species D. aequiglumis, D. eriostachya and D. ternata are found less frequently. Digitaria species are susceptible to clethodim, glyphosate and there are hebicide-tolerant populations to cyhalofop. The competitive ability of Digitaria is smaller than the cultivated species of rice and soybeans, when it occurs in the same proportion of plants. Still, the rice can live with the large crabgrass for a maximum period of 18 days after emergence without reduction in productivity; while soybean should remain free from large crabgrass for a period between 23 and 50 days after crop emergence. / A milhã destaca-se entre as principais plantas daninhas presentes em áreas agrícolas no RS, devido à ocorrência em cultivos de sequeiro e irrigado e pelos prejuízos que causa às culturas. Os objetivos do presente estudo foram identificar as espécies de Digitaria ocorrentes em áreas agrícolas do RS, avaliar sua suscetibilidade a herbicidas, comparar a habilidade competitiva relativa de milhã com arroz irrigado e soja e determinar os períodos de competição de milhã nestas culturas. A espécie D. ciliaris ocorre em todo o RS, predominando em áreas de lavouras de soja na metade Norte do Estado, onde D. bicornis também ocorre. Na região orizícola, metade Sul do RS, além de D. ciliaris, destaca-se D. sanguinalis, enquanto as espécies D. aequiglumis, D. eriostachya e D. ternata são encontradas com menor frequência. As espécies de Digitaria são suscetíveis aos herbicidas clethodim e glyphosate, mas há populações tolerantes ao herbicida cyhalofop. A habilidade competitiva da Digitaria é menor que a das espécies cultivadas arroz irrigado e soja, quando ocorrem na mesma proporção de plantas. Ainda, a cultura do arroz irrigado pode conviver com presença de milhã até 18 dias após a emergência, sem que ocorra redução na produtividade, enquanto a soja deve permanecer livre da presença de milhã por período entre 23 e 50 dias após a emergência da cultura.
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Mutagenesis and development of herbicide resistance in sorghum for protection against Striga.Ndung'u, David Kamundia. January 2009 (has links)
Sorghum (Sorghum bicolor) is an important cereal crop in sub-Saharan Africa. The parasitic weed Striga hermonthica is a major biotic constraint to sorghum production. A novel technology where planting seeds are coated with herbicide to kill Striga that attach to the roots of the host has been shown to be effective in protecting the cereal crop from Striga damage. However, the host plant must have herbicide tolerance. This technology has not been tested in sorghum because there are no herbicide tolerant sorghum varieties available in Kenya and is, therefore, unavailable for subsistence farmers. One of the ways in which genetic variation can be enhanced and herbicide resistance developed is through chemical mutagenesis with ethyl methane sulfonate (EMS). The objectives of this project, therefore, were to: 1) identify sorghum production constraints through farmer PRA in order to determine breeding priorities.in two Striga endemic districts in western Kenya; 2) develop an EMS mutagenesis protocol for sorghum and to enhance the genetic variability of the crop using chemical mutagenesis; 3) evaluate EMS-derived sorghum mutants for improved agronomic performance; 4) develop acetolactate synthase (ALS) herbicide resistance in sorghum and to characterize the mode of inheritance of the trait; 5) determine the effect of herbicide coating of seed of herbicide tolerant sorghum on Striga infestation. In order to determine breeding priorities and constraints in sorghum production and the likelihood of adoption of herbicide seed coating technology, a survey involving 213 farmers was conducted in two Striga endemic rural districts of Nyanza province in Kenya. Results indicated that local landraces like Ochuti, and Nyakabala were grown by more farmers (> 60%) than the improved varieties like Seredo and Serena (48%). Popularity of the landraces was linked to Striga tolerance, resistance to drought, bird damage and storage pests, yield stability and high satiety value. Major constraints to sorghum production were drought, Striga weed, storage pests, bird damage and poverty among the rural farmers. Important characteristics farmers wanted in new varieties were Striga and drought resistance, earliness, resistance to bird and weevil damage and good taste. Striga infestations in sorghum fields were > 70%. Cultural Striga control options were considered inadequate while inorganic fertilization and chemical control were considered effective but unaffordable. Farmers’ willingness to pay a premium of over 30% for a Striga solution gave indication that herbicide seed coating if effective could be adopted by farmers. As a prerequisite to development of herbicide resistance, a comparative study was carried out to determine optimum conditions for mutagenesis and to induce genetic variation in the sorghum. Two sorghum varieties were mutagenized using varying concentrations (0.1 to 1.5% v/v) of EMS and two exposure times (6h and 12h). In laboratory and greenhouse experiments, severe reduction of sorghum root and shoot lengths indicated effective mutagenesis. The LD50 based on shoot length reduction was 0.35% and 0.4% EMS for 6h for Seredo and Kari/mtama-1, respectively. The highest mutation frequency based on chlorophyll abnormalities was 56% for 0.3% EMS for 6h. In the M2 generation, phenotypic variances for panicle characteristics were increased on treatment with EMS. However, significant effects of exposure time and variety indicated the necessity of genotype optimization for some traits. In order to determine the significance of mutation breeding in sorghum, 78 mutant lines derived from EMS mutagenesis, their wild type progenitor (Seredo) and two local checks (Kari/mtama-1 and Serena) were evaluated for agronomic performance in two locations in Kenya. There were significant (P = 0.05) effects among entries for grain yield, 1000-seed weight and visual scores for height uniformity, head exertion, head architecture and overall desirability. The highest yielding entry-mutant line “SB2M13” had a yield of 160% and 152% relative to the wild type (Seredo) and the best check Kari/mtama-1, respectively. Mutant line “tag27” had the highest 1000-seed weight which was 133% relative to the wild type. Seven mutant lines were rated superior to the wild type for panicle characteristics, head exertion and overall desirability. However, the majority of mutants were inferior to the wild type for most characteristics. Superior mutant lines may be developed into direct mutant varieties after multi-location trials or used as breeding material for sorghum improvement. In order to develop acetolactate synthase (ALS) herbicide resistance in sorghum, over 50,000 seeds of Seredo were mutagenized with 0.3% EMS. Over four million M2 plants were screened using 20g ha-1 of the ALS herbicide, sulfosulfuron. Five mutants (hb46 hb12, hb462, hb56 and hb8) survived the herbicide treatment and were confirmed to be tolerant. Mutant lines displayed differential herbicide tolerance, and the general order of tolerance after spray or seed coat application was hb46 > hb12 > hb462 ~ hb56 > hb8. The LD50 values for herbicide application as a spray, or seed coat, showed mutant lines to be up to 20 and 170 fold, respectively, more resistant than the wild type. Chi square analysis of data from herbicide screening of F2 generation of mutant X wild type crosses indicated no difference from the Mendelian segregation of 1:2:1 indicating the herbicide tolerance was inherited as a single semi-dominant gene. Mutant X mutant crosses did not show allelism indicating that the tolerance in all five mutants could be a result of the same gene mutation. To determine effect of herbicide seed coating on Striga infestation, the five herbicide tolerant mutant lines, hb46, hb12, hb462, hb56 and hb8 and the wild type progenitor Seredo were coated with varying concentrations (0.5-1.5% g ha-1) of sulfosulfuron and planted in a Striga endemic field. There were significant (P=0.05) effects of herbicide concentration on Striga density, Striga flowering and seed set, and sorghum plant stand and biomass. All treatments with herbicide coated on sorghum seeds had lower Striga emergence. Coating sorghum seed with 1g ha-1 sulfosulfuron reduced Striga infestation, Striga flowering and Striga seed set by 47%, 52% and 77%, respectively, and was considered the most effective rate as it did not result in sorghum biomass reduction. Mutants displayed differential herbicide tolerance and Striga resistance. Combining seed coating with high herbicide tolerance and inherent Striga resistance would be most effective for Striga control. Overall, the study showed that EMS mutagenesis is effective in inducing variation in sorghum for several traits including herbicide resistance. The mutants developed in this study will be important for sorghum breeding and for protection of sorghum against the Striga weed. / Thesis (Ph.D.) - University of KwaZulu-Natal, Pietermaritzburg, 2009.
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Das Problem der Welternährung: Simulationen zu Einflussfaktoren, die Bedeutung von Agrartechnologien und gesellschaftliche Einschätzungen in Deutschland / The Problem of World Food Security: Simulations on Influencing Factors, the Impact of Agricultural Technologies, and Public Opinion in GermanyKlümper, Wilhelm 13 November 2014 (has links)
Hunger ist nach wie vor ein weit verbreitetes Problem. Nach der jüngsten Schätzung der FAO hungern weltweit noch immer über 800 Mio. Menschen. Prognosen gehen davon aus, dass die Agrarproduktion bis 2050 verdoppelt werden muss, um der steigenden Nachfrage nach Agrarprodukten durch Bevölkerungswachstum, Bioenergieproduktion und sich verändernde Ernährungsgewohnheiten zu begegnen.
Unter vielen Möglichkeiten, das Welternährungsproblem zu beschreiben, wird in dieser Dissertation das Konzept der Ernährungssicherheit nach der Definition der FAO herangezogen. Ernährungssicherheit umfasst als wichtigste Aspekte die Verfügbarkeit von Nahrungsmitteln und den ökonomischen Zugang zu Nahrungsmitteln. Nahrungsmittelverfügbarkeit ist in erster Linie von einer global ausreichenden Produktion abhängig, der Zugang zu Nahrung von der Kaufkraft der Haushalte. Die Kaufkraft wird sowohl durch das Einkommen wie auch die Agrarpreise beeinflusst.
Die Nahrungsmittelverfügbarkeit kann vor allem durch Ertragssteigerungen erhöht werden. Sollen die Ertragssteigerungen ressourcenschonend erfolgen, muss die Produktivität der Agrarproduktion bezogen auf alle Produktionsfaktoren inkl. Umweltgütern steigen. Nur durch technische und organisatorische Innovation kann dies realisiert werden. Ertragssteigerungen in Entwicklungsländern erhöhen gleichzeitig die Einkommen von potenziell von Hunger Betroffenen. Eine Begrenzung der Nachfrage nach Agrargütern kann global in erster Linie in den Bereichen Bioenergie und Konsum tierischer Produkte erfolgen.
Simulationen können helfen, den Einfluss einzelner Faktoren der globalen Nachfrage und des Angebots nach Agrarrohstoffen und -produkten auf die Welternährungslage genauer abzuschätzen. Ein Großteil der Simulationen in der Literatur kommt mithilfe von partiellen oder allgemeinen Gleichgewichtsmodellen zu Aussagen über gehandelte Mengen und Preise oder Wohlfahrtseffekte. In dieser Arbeit wird ein einfaches partielles Gleichgewichtsmodell für den Weltmarkt für Biotreibstoffe, Fleisch und Getreide entwickelt und mit der Methode der FAO zur Schätzung der Zahl der Hungernden gekoppelt. Dies ermöglicht die Abschätzung des Einflusses verschiedener Szenarien auf die Zahl der Hungernden. Für das Referenzjahr 2011 werden Szenarien alternativer Nachfrage nach Fleisch und Biotreibstoffen simuliert, ebenso wie ein Szenario alternativer landwirtschaftlicher Produktivität in der Europäischen Union.
Die Schätzungen ergeben einen signifikanten Einfluss der simulierten Nachfrage- und Angebotsverschiebungen. Im Vergleich mit dem Status Quo führt eine Reduktion des Fleischkonsums in den OECD-Ländern um 50% zu einer Reduktion der Zahl der Hungernden um 5%. Eine
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Flächenproduktivität im Getreideanbau in der EU auf dem Niveau von 1980 steigert die Zahl der Hungernden um mehr als 5%, ein Anstieg der Biotreibstoffquote in der OECD auf 10% erhöht die Zahl der Hungernden gar um 10%.
Die Durchsetzung geeigneter politischer Maßnahmen zur Verbesserung der Welternährungslage kann durch eine breite öffentliche Unterstützung beschleunigt oder erst ermöglicht werden. Über die öffentliche Meinung zu Fragen der Welternährung in Deutschland existieren bisher keine expliziten Studien. In den Themenbereichen landwirtschaftliche Produktion und Nahrungsmittelkonsum stellt das Thema Welternährung nur einen Aspekt dar, der neben Fragen nach z.B. der Lebensmittelsicherheit und Gesundheit sowie den Auswirkungen von Agrarproduktion auf Landschaft und Umwelt steht.
Hier werden Ergebnisse einer Online-Befragung zum Thema Welternährung präsentiert, die im März 2012 mit einer repräsentativen Stichprobe 1.200 deutscher Internetnutzer durchgeführt wurde. Die Befragung beinhaltete im Wesentlichen die Bewertung der Wirkung verschiedener potenzieller Ursachen der weltweiten Unterernährung, sowie Maßnahmen und Entwicklungen zu ihrer Lösung. Die Ergebnisse zeigen, dass das Thema Welthunger in erster Linie mit Merkmalen akuter (Hunger-) Krisen in Verbindung gebracht wird. Die vielversprechendsten Lösungsmaßnahmen sind in den Augen der Befragten der Ausbau des Fairen Handels, Absatzmärkte für Kleinbauern sowie ein Lebensmittelspekulationsverbot. Der intensiven Landwirtschaft in der Welt wie auch in Europa sowie insbesondere der Grünen Gentechnik wird kein Potenzial zur Lösung des Problems zugesprochen. Die Antwortmuster lassen auf die Präsenz eines Halo-Effekts mit einer Übertragung unterstellter negativer Umweltwirkungen auf das Thema Welternährung schließen.
Die Grüne Gentechnik ist eine Agrartechnologie, die potenziell zur Angebotsausweitung von Agrarprodukten genauso beitragen kann wie zu einer ressourcenschonenderen Landwirtschaft. Bisherige Anwendungen, hauptsächlich Herbizidtoleranz sowie Insektenresistenz, haben u.a. zu einer Steigerung der effektiven Erträge, einer Einsparung von Insektiziden und einer Steigerung der Profite vor allem im Baumwollanbau beigetragen. Trotz zahlreicher Belege besteht über die Auswirkungen von gentechnisch veränderten (GV) Nutzpflanzen eine anhaltende Kontroverse. Ein Großteil der europäischen Bevölkerung lehnt den Anbau ebenso ab wie einen Verzehr von Produkten aus GV-Pflanzen. Unterstellte sozio-ökonomische Auswirkungen oder Auswirkungen auf die Welternährung sind nur zwei Determinanten von vielen, die zu den Einstellungen zur Grünen Gentechnik beitragen.
Zur Konsolidierung des Wissens im Bereich agronomischer sowie sozio-ökonomischer Auswirkungen von GV-Pflanzen wurde eine Meta-Analyse durchgeführt. In wissenschaftlichen Datenbanken wurden
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147 Primärstudien identifiziert, die für die Meta-Analyse verwendet wurden. Die Analyse beschränkt sich auf gentechnisch veränderte Sojabohnen, Mais und Baumwolle.
Als mittlere Effekte des Anbaus von GV-Pflanzen ergibt die Meta-Analyse eine Steigerung des Ertrages um 22%, eine Reduktion der Menge der angewendeten Pflanzenschutzmittel um 37% und eine Steigerung der Profite der Bauern um 68%. Die Höhe der Effekte hängt stark von verschiedenen Faktoren ab. Die Effekte sind für alle drei genannten Variablen in Entwicklungsländern betragsmäßig größer als in Industrieländern. Auch sind die Effekte des Anbaus von GV-Pflanzen bei Erträgen und beim Pflanzenschutzmitteleinsatz betragsmäßig höher für insektenresistente Pflanzen als bei solchen mit Herbizidtoleranz.
Aus den in der Arbeit gewonnenen Erkenntnissen kann geschlussfolgert werden, dass sowohl das Nahrungsmittelangebot gesteigert als auch die Nachfrage begrenzt werden sollte. Dies verlangt eine standortangepasste Ausnutzung vorhandener und die Entwicklung neuer Technologien. Auch die Gentechnik kann einen Beitrag leisten. Der Kleinbauernsektor muss vordringlich gefördert werden. Zur Begrenzung der Nachfrage können neben der Politik, welche vor allem die Biotreibstoffnachfrage beeinflussen kann, auch Konsumenten durch Verzicht auf tierische Produkte beitragen. Dies wie auch die Durchführung effektiver politischer Maßnahmen sind auf eine unverzerrte Sichtweise der Öffentlichkeit auf das Thema Welternährung angewiesen. Dazu muss das Thema in Wissenschaftskommunikation und Bildung stärker thematisiert werden.
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