Glyphosate Tolerance in Roundup Ready Flex Cotton (Gossypium hirsutum)

Huff, Jonathan Andrew

05 May 2007

Due to reduced reproductive tolerance, current Roundup Ready cotton only allows for over-the-top glyphosate applications through the fourth leaf stage of development. To combat this issue, Roundup Ready Flex cotton was introduced in 2006, offering both vegetative and reproductive tissue tolerance to glyphosate. Roundup Ready Flex cotton offers a wider window of application timing, without risk of plant injury. The primary objectives of this research were to test Roundup Ready Flex cotton against current Roundup Ready cotton technology at various application rates and timings and to test various elite varieties of Roundup Ready Flex cotton for glyphosate tolerance. Roundup Ready Flex cotton tolerance was unaffected by application rates or timings. Roundup Ready Flex cotton varieties were unaffected by glyphosate applications. Roundup Ready Flex cotton exhibits both vegetative and reproductive tolerance to glyphosate and is an effective alternative to current Roundup Ready cotton cropping systems.

glyphosate

Roundup Ready Flex

cotton

glyphosate tolerant

Microbial Community Structure in Soils Amended With Glyphosate Tolerant Soybean Residue

Nye, Mark Edward

18 August 2014

No description available.

Environmental Science

Microbiology

Soil Sciences

Ecology

glyphosate

glyphosate-tolerant

microbial community structure

PLFA

soybean

Ácaros tetraniquídeos (prostigmata: tetranychidae) associados à soja no Rio Grande do Sul: ocorrência, identificação de espécies e efeito de cultivares e de plantas daninhas / Spider mite (prostigmata: tetranychidae) associates whit soybean in Rio Grande do Sul: occurrence, species identification and effect of soybean cultivars and weeds

Roggia, Samuel

12 February 2007

The spider mite occurrence, on soybean (Glycine max (L.) Merril), is sporadic and associated whit dry periods. Recently, in continuous years, was reported mite outbreaks in soybean, in some sites of Rio Grande do Sul State. In this context two research was conducted, one in summer crop 2004/05 and other in 2005/06. The first was carried for study the mite occurrence and geographic distribution, on soybean, from some place of Rio Grande do Sul State. The second was conducted for study the effect of the two soybean cultivars and of some weed management systems on mite density and study their population dynamic on soybean. In summer crop 2004/05 was carried some mite samplings in soybean field at State. The mite species found, all beloung to the Tetranychidae family, are Mononychellus planki (McGregor), Tetranychus desertorum Banks, T. gigas Pritchard & Baker, T. ludeni Zacher and T. urticae Koch. Most of this species are well distributed in the diferents sampling regions of this study. From the results was made a species distribution map and a taxonomic key. In summer crop 2005/06, in Santa Maria, RS, 11 treatments was study. Its was constitute in two soybean cultivars, one transgenic glyphosato-tolerant and other non-transgenic, every one whit five weed management systems: (1) without management; (2) hand management; (3) herbicide bentazone + sethoxydim; (4) bentazone only; (5) sethoxydim only. The 11th treatment was the herbicide glyphosate sprayed on the transgenic soybean. The mite species found in this study are M. planki and T. gigas. The weed management systems is more determinant, on the spider mite population on soybean, than the soybean cultivar. The mite population presenteded inverse correlation whit weed infestation and weed density. The climatic fators determined the mite population flutuation and the population peak occured in the initial period of soybean pods development. / A ocorrência de ácaros-praga em soja (Glycine max (L.) Merril) é esporádica e está, comumente, associada à períodos de estiagem. Recentemente, em safras seguidas, foram observados ataques severos de ácaros à soja em algumas regiões do estado do Rio Grande do Sul. Neste contexto foram realizados dois experimentos, um na safra agrícola 2004/05 e outro em 2005/06. O primeiro teve objetivo de estudar a ocorrência e a distribuição geográfica de ácaros fitófagos, associados à soja, em municípios de seis regiões produtoras do estado do Rio Grande do Sul. O segundo objetivou avaliar o efeito de duas cultivares de soja e de diferentes sistemas de manejo de plantas daninhas sobre a densidade populacional de ácaros em soja e estudar a dinâmica populacional destes ácaros na cultura. Em 2004/05 foram realizadas amostragens de ácaros em lavouras de soja no Estado. As espécies de ácaros encontradas são Mononychellus planki (McGregor), Tetranychus desertorum Banks, T. gigas Pritchard & Baker, T. ludeni Zacher e T. urticae Koch, todos são tetraniquídeos. A maior parte destas espécies estiveram bem distribuídas nas diferentes regiões amostradas neste levantamento. Com base nestes resultados foi elaborado um mapa com a distribuição das espécies e uma chave de identificação. Em 2005/06 foram estudados, em Santa Maria, RS, 11 tratamentos. Estes consistiram em duas cultivares de soja, uma transgênica glifosato-tolerante e a outra não-transgênica, cada uma sob cinco sistemas de manejo de plantas daninhas: (1) sem controle; (2) arranquio manual; (3) manejo tradicional com os herbicidas bentazona e setoxidim; (4) apenas com bentazona; (5) apenas com setoxidim. E adicionalmente um tratamento com o herbicida glifosato sobre a cultivar de soja transgênica. Os ácaros-praga ocorrentes foram M. planki e T. gigas. A densidade populacional destes ácaros em soja foi mais afetada pelos sistemas de manejo de plantas daninhas do que pela cultivar, e esteve inversamente correlacionada com a quantidade e diversidade de plantas daninhas. A flutuação populacional destes ácaros foi influenciada por fatores climáticos e o pico populacional ocorreu na fase de início da formação de legumes da soja.

Mononychellus planki (McGregor)

Tetranychus desertorum Banks

Tetranychus gigas Pritchard & Baker

Tetranychus ludeni Zacher

Tetranychus urticae Koch

Soja transgênica glifosato-tolerante

Manejo de plantas daninhas

Mononychellus planki (McGregor)

Tetranychus desertorum Banks

Tetranychus gigas Pritchard & Baker

Tetranychus ludeni Zacher

Tetranychus urticae Koch

Glyphosate-tolerant transgenic soybean

Weed management

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

基改種子專利到期對於基因改造作物產業之影響-以Monsanto抗嘉磷塞轉基因大豆為例 / The patent expiration of genetic modified seeds and its impact to the agricultural biotech industry- a case study of Monsanto’s roundup ready soybeans

林家綺, Lin, Chia Chi

Unknown Date

面對未來全球人口成長、可耕地減少等現象，生物技術在農業上的應用日益增加。其中，基因改造技術等基因層次相關的平臺應用技術更是提升農作物價值的關鍵—透過跨物種功能應用，大幅提升育種效率。自1996年基改作物商業化種植開始至今，美國都是全球最大種植國家，也是基改作物研發先驅國家。生技農業政策以及和基因改造作物有關法規之制訂使基改作物在美國蓬勃發展，尤其是專利保護對於種子產業之影響尤為深遠。專利權所提供的完善保護使大量資本進入種子產業，投入資源將農業生物技術應用於種子培育上，此舉也促成Monsanto等跨國農業生技公司之興起，主導全球基因改造作物之市場。 Monsanto將研發重心放在基改種子之研發，其在生技種子相關營業比重遠高於同業，同時，其投入特殊性狀之基改種子研發之回收遠高於其他公司之相同營業項目之投資報酬率。Monsanto積極藉由併購取得基因、基因轉殖技術以及種子種源。掌握關鍵基因、基因轉殖技術以及大量且優良種源使含有Monsanto轉殖基因作物在市場上佔有極大的比例。在美國，超過一半以上之主要作物種植面積為基因改造作物，尤其是基因改造大豆，佔大豆總種植面積之比例高達94%。市面上絕大多數基改大豆係Monsanto的抗嘉磷塞（RounupReady，RR1Y）基改大豆種子。藉由智慧財產保護策略，Monsanto並進一步限制RR1Y及其他基改作物之使用方式。 惟RR1Y專利將在2014年到期，農民可在2014年時留種種植基改大豆種子而不用每年購買種子，或購買學名（generic）抗嘉磷塞轉基因大豆種子。在美國所種植之大豆約有四成會外銷，而外銷國家基改作物規範法規是出口與否之關鍵。若未取得歐盟、中國等主要外銷國家基改作物主管機關之批准，呈交包括基因之轉殖植物對環境衝擊之風險評估、包含該基因之轉殖植物所製成食品之安全性評估等基改作物資訊，則抗嘉磷塞基因大豆無法進入該國糧食市場。然而，在目前美國農業生技基改作物相關規範下，學名基改種子廠必須在專利種子專利到期後，才能進行實驗及田間試驗，呈交相關資料以符合基改作物主管機關之要求。透過建立學名基改作物快速獲得核准查驗登記之程序，允許學名廠依賴專利基改作物原廠之實驗及田間試驗資料以建立其學名基改作物之安全性與性狀表現有效性，同時，允許學名基改作物在原基改作物開發廠專利期滿前即可開始進行試驗，可以使學名抗嘉磷塞大豆種子以及其他學名基改種子能在原專利基改作物種子專利到期後順利進入市場，促使基改作物種子價格競爭，並對於專利基改作物研發公司進行適度之補償，以促進產業發展。 / The development of new technologies in plant breeding has led to improvements in the efficiency scientists produce improved plant varieties. Genetic modification is among the developments that support plant breeding. The introduction of genetically modified crops has revolutionized the agriculture industry. With patent protection available on GM traits, varieties and other aspects of seed production, private R&D investments in the seed industry have increased tremendously. Monsanto has been the leading company in investing agricultural biotechnology and has obtained a dominant position in the GM traits found in soybeans, cotton, corn and other commercialized crops. Currently, over 90 percent of soybeans planted in the United States were herbicide-resistant, with Monsanto’s Roundup Ready being the dominant soybeans planted. In 2014, however, the agriculture industry will be facing the expiration of a patent for Roundup Ready soybeans. Despiate the fact that the patent expiration date is approaching, the agricultural biotech industry has no guideline in place to tell its players exactly how to transition seamlessly from patent monopolies to generic competition. The transition problem is espectially significant for soybeans exported to oversea markets as more than 40 percent of the soybeans grown in the U.S. are exported. In order for those soybeans to be accepted in the grain channel, regulatory approvals are required in countries that import soybeans. Obtaining data, which includes scitific data on the trait being developed, for regulatory approvals can take years to complete. If a generic trait is to reach market immediately after the original trait go off patent, the data generation process should begin before patent expiration. A Hatch-Waxman type patent infringement defense for activities necessary to obtain regulatory approvals for biotech traits can ensure that seed companies have sufficient time to obtain registrations for a generic Roundup Ready trait or other generic traits. Current legislation should be modified to adequately oversee the transition to the generic use of genetically modified crops and, in the mean time, ensure the availability of generic modified crops.

基因改造作物

學名基改種子

孟山都

抗嘉磷塞基改（轉基因）大豆

基因性狀

Genetic Modified（GM）Crops

Generic GM Seeds

Monsanto

Gene Traits