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Journal articles on the topic 'Endothall (Herbicide)'

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Published: 4 June 2021
Last updated: 14 February 2022

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1

Barua, Rajesh, Peter Boutsalis, Jenna Malone, Gurjeet Gill, and Christopher Preston. "Incidence of multiple herbicide resistance in annual bluegrass (Poa annua) across southeastern Australia." Weed Science 68, no. 4 (2020): 340–47. http://dx.doi.org/10.1017/wsc.2020.35.

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AbstractAnnual bluegrass (Poa annua L.) is a problematic annual weed in established turf where the intensive use of herbicides has resulted in the evolution of herbicide resistance. In 2017, 31 populations of P. annua suspected to be resistant to herbicides commonly used to control this weed in turf were collected from golf courses across southeastern Australia to check the resistance status to different herbicide groups. All populations were found to be resistant to multiple turf herbicides. Dose–response experiments confirmed resistance to propyzamide, simazine, rimsulfuron, foramsulfuron, e
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2

Islam, Md Shahidul, Trevor D. Hunt, Zhiqian Liu, Kym L. Butler, and Tony M. Dugdale. "Sediment Facilitates Microbial Degradation of the Herbicides Endothall Monoamine Salt and Endothall Dipotassium Salt in an Aquatic Environment." International Journal of Environmental Research and Public Health 15, no. 10 (2018): 2255. http://dx.doi.org/10.3390/ijerph15102255.

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Endothall dipotassium salt and monoamine salt are herbicide formulations used for controlling submerged aquatic macrophytes and algae in aquatic ecosystems. Microbial activity is the primary degradation pathway for endothall. To better understand what influences endothall degradation, we conducted a mesocosm experiment to (1) evaluate the effects of different water and sediment sources on degradation, and (2) determine if degradation was faster in the presence of a microbial community previously exposed to endothall. Endothall residues were determined with LC-MS at intervals to 21 days after e
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3

Johnson, W. C., D. L. Colvin, T. A. Littlefield, and B. G. Mullinix. "Florida Beggarweed (Desmodium tortuosum) and Sicklepod (Senna obtusifolia) Control in Peanut Using Herbicides Applied Through a Wick-Bar1." Peanut Science 26, no. 1 (1999): 18–23. http://dx.doi.org/10.3146/i0095-3679-26-1-5.

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Abstract Tall weeds in peanut fields cause losses other that yield reduction from competition by intercepting fungicides and insecticides, and interfering with harvest efficiency. Studies were conducted at Archer, FL and Tifton, GA in 1994 and 1995 to determine an effective means to selectively control tall Florida beggarweed and sicklepod late season in peanut using herbicides applied with a wickbar. Herbicides evaluated were glyphosate, paraquat, and dimethylalkylamine salt of endothall (DMAA endothall); each applied at 0, 25, 50, 75, and 100% by volume. Treatments were applied in two passes
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4

Williams, Max W., Sally A. Bound, Jack Hughes, and Stuart Tustin. "183 ENDOTHALL, A BLOSSOM-THINNING AGENT FOR APPLES." HortScience 29, no. 5 (1994): 455c—455. http://dx.doi.org/10.21273/hortsci.29.5.455c.

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Endothall [7, oxybicyclo (2,2,2) heptane-2-3 dicarboxylic acid] is an aquatic herbicide which has potential for use as a blossom thinning agent for apples. Trials conducted in Washington State, New Zealand and Australia on several apple cultivars indicate Endothall is a safe, consistent blossom thinner. Cultivars treated were `Golden Delicious', `Delicious', and `Gala'. Single and repeat applications were used in the New Zealand tests. With multiple applications of Endothall, no fruit marking occurred on any of the test cultivars. In temperate fruit zones with extended apple bloom periods, mul
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5

Williams, Max W., Sally A. Bound, Jack Hughes, and Stuart Tustin. "Endothall: A Blossom Thinner for Apples." HortTechnology 5, no. 3 (1995): 257–59. http://dx.doi.org/10.21273/horttech.5.3.257.

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Endothall [7, oxabicyclo (2,2,1) heptane-2-3 dicarboxylic acid] is an aquatic herbicide with potential use as a blossom thinner for apples (Malus domestics Borkh.). Trials conducted in Washington, New Zealand, and Australia on several apple cultivars indicate that endothall is a safe, consistent blossom thinner. Cultivars treated were `Golden Delicious', `Delicious', `Royal Gala', and `Granny Smith'. Single and repeat applications were used in the New Zealand and Washington tests. With multiple applications of endothall, no fruit marking occurred on any of the test cultivars. In temperate frui
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6

Wersal, Ryan M., and John D. Madsen. "Comparison of Subsurface and Foliar Herbicide Applications for Control of Parrotfeather (Myriophyllum aquaticum)." Invasive Plant Science and Management 3, no. 3 (2010): 262–67. http://dx.doi.org/10.1614/ipsm-d-09-00058.1.

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AbstractParrotfeather is an invasive, aquatic plant in the United States that is native to South America. It has impaired the use of water bodies throughout the United States and is difficult to control, despite using a variety of management techniques. Our objectives were to examine the efficacy of subsurface applications of seven herbicides labeled for aquatic use and to compare those applications to herbicides that can also be applied to emergent foliage. A replicated mesocosm study was conducted in 378-L (100-gal) tanks beginning in August 2007 and repeated during the same period in 2008.
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7

Koschnick, Tyler J., William T. Haller, and Greg E. MacDonald. "Turf and Ornamental Plant Tolerances to Endothall in Irrigation Water I. Ornamental Species." HortTechnology 15, no. 2 (2005): 318–23. http://dx.doi.org/10.21273/horttech.15.2.0318.

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Restrictions on the endothall aquatic herbicide label include the use of endothall treated water for irrigating plants from 7 to 25 days after application. This interval was established to allow sufficient time for endothall to dissipate to levels that were considered safe for irrigation to prevent phytotoxicity to desirable plants. The affects of endothall on begonias (Begonia semperflorens `Vodka Cocktail'), pansies (Viola × wittrockiana `Atlas Purple'), petunias (Petunia hybrida), and impatiens (Impatiens wallerana `Lipstick') were determined by comparing aboveground dry weight to control p
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8

Reinert, Kevin H., Susan Stewart, Mark L. Hinman, John H. Rodgers, and Tim J. Leslie. "Release of endothall from aquathol granular aquatic herbicide." Water Research 19, no. 6 (1985): 805–8. http://dx.doi.org/10.1016/0043-1354(85)90130-7.

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9

Bultemeier, Brett W., Mike D. Netherland, Jason A. Ferrell, and William T. Haller. "Differential Herbicide Response among Three Phenotypes ofCabomba caroliniana." Invasive Plant Science and Management 2, no. 4 (2009): 352–59. http://dx.doi.org/10.1614/ipsm-09-035.1.

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AbstractCabomba is a submersed aquatic plant native to the southeastern United States that is commonly sold worldwide through the aquarium trade. While infrequently managed in its native range, cabomba has recently been reported as invasive and tolerant to management efforts in the northern areas of the United States and in other countries. Invasive populations of cabomba are characterized by a phenotype that is bright green. In contrast, cabomba native to the southeastern United States is characterized by a red phenotype, while plants sold through the aquarium trade have intermediate characte
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10

Koschnick, Tyler J., William T. Haller, and Alison M. Fox. "Turf and Ornamental Plant Tolerances to Endothall in Irrigation Water II. Turf Species." HortTechnology 15, no. 2 (2005): 324–29. http://dx.doi.org/10.21273/horttech.15.2.0324.

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Two formulations of the contact herbicide endothall are used to control submersed aquatic weeds. Waters treated with the amine or dipotassium salt formulations have irrigation restrictions varying from 7 to 25 days depending on the concentration of endothall applied. These water-use restrictions may be reduced for turfgrass if studies conclude there is no phytotoxicity to turf species irrigated with concentrations of endothall that may exist after an aquatic application. Two separate experiments were conducted to determine turfgrass tolerance to endothall in irrigation water on five species of
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11

Reinert, K. H., and J. H. Rodgers. "Validation trial of predictive fate models using an aquatic herbicide (endothall)." Environmental Toxicology and Chemistry 5, no. 5 (1986): 449–61. http://dx.doi.org/10.1002/etc.5620050505.

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12

Serdar, David M., and Arthur F. Johnson. "Seawater Challenge of Coho Salmon Smolts Following Exposure to the Herbicide Endothall." Progressive Fish-Culturist 58, no. 2 (1996): 131–34. http://dx.doi.org/10.1577/1548-8640(1996)058<0131:scocss>2.3.co;2.

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13

Bajsa, Joanna, Zhiqiang Pan, Franck E. Dayan, Daniel K. Owens, and Stephen O. Duke. "Validation of serine/threonine protein phosphatase as the herbicide target site of endothall." Pesticide Biochemistry and Physiology 102, no. 1 (2012): 38–44. http://dx.doi.org/10.1016/j.pestbp.2011.10.007.

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14

Schrader, Kevin K., Marjan Q. De Regt, Craig S. Tucker, and Stephen O. Duke. "A Rapid Bioassay for Selective Algicides." Weed Technology 11, no. 4 (1997): 767–74. http://dx.doi.org/10.1017/s0890037x00043414.

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Cyanobacteria (blue-green algae) are undesirable in ponds used to raise fish for human food. Management of cyanobacterial communities in aquaculture ponds has been hindered by the small number of herbicides approved for use in food-fish ponds and by the lack of selectivity toward cyanobacteria for those herbicides that are approved for that use. To facilitate development of additional management options, a rapid bioassay utilizing 96-well cell culture plates was developed for screening herbicides and other phytotoxins for selective toxicity toward cyanobacteria.Oscillatoriacf.chalybeaandSelena
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15

Starke, Robert J., and Karen A. Renner. "Velvetleaf (Abutilon theophrasti) and Sugarbeet (Beta vulgaris) Response to Triflusulfuron and Desmedipham Plus Phenmedipham." Weed Technology 10, no. 1 (1996): 121–26. http://dx.doi.org/10.1017/s0890037x00045814.

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Velvetleaf control and sugarbeet response to POST triflusulfuron applied alone and in combination with desmedipham plus phenmedipham, nonionic surfactant, and urea ammonium nitrate (50:50) were evaluated in the greenhouse (velvetleaf only) and field. In a second field study, the effect of POST applications of triflusulfuron, desmedipham plus phenmedipham, ethofumesate, endothall, or combinations of these herbicides on sugarbeet root yield and quality was determined in the absence of weeds. Triflusulfuron controlled velvetleaf only when nonionic surfactant (NIS) was added to the spray solution.
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16

Tresch, Stefan, Jennifer Schmotz, and Klaus Grossmann. "Probing mode of action in plant cell cycle by the herbicide endothall, a protein phosphatase inhibitor." Pesticide Biochemistry and Physiology 99, no. 1 (2011): 86–95. http://dx.doi.org/10.1016/j.pestbp.2010.11.004.

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17

Smith, Graham, Daniel E. Lynch, Colin H. L. Kennard, and Thomas C. W. Mak. "The preparation and crystal structure of the calcium complex with the herbicide endothall, Catena-[diaqua(7-oxabicyclo-[2.2.1]-Heptane-2,3- dicarboxylato)calcium(II)]." Polyhedron 10, no. 13 (1991): 1569–72. http://dx.doi.org/10.1016/s0277-5387(00)86082-9.

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18

Madsen, John D., Ryan M. Wersal, and Thomas E. Woolf. "Operational Control of Eurasian Watermilfoil (Myriophyllum spicatum) and Impacts to the Native Submersed Aquatic Macrophyte Community in Lake Pend Oreille, Idaho." Invasive Plant Science and Management 8, no. 2 (2015): 219–32. http://dx.doi.org/10.1614/ipsm-d-14-00008.1.

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Lake Pend Oreille is the largest (36,000 ha or 91,000 ac) freshwater lake in Idaho. Approximately 27% or 10,000 ha of the lake is littoral zone habitat supporting aquatic macrophyte growth. Eurasian watermilfoil has invaded large areas of this littoral zone habitat, with early estimates suggesting approximately 2,000 ha by the mid 2000s. Idaho State Department of Agriculture developed a state-wide eradication program in response to the threats posed by Eurasian watermilfoil, which attempts to quantify Eurasian watermilfoil infestations and its effects on the native plant community. Littoral zo
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19

Renner, Karen A. "Canada Thistle (Cirsium arvense) Control in Sugarbeet with Clopyralid." Weed Technology 5, no. 2 (1991): 392–95. http://dx.doi.org/10.1017/s0890037x00028293.

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Sugarbeet tolerance to and Canada thistle control from tank mixtures of clopyralid plus other postemergence herbicides and/or petroleum oil adjuvant applied at various times were determined. Herbicides were applied to 5 to 20 or 20 to 70-cm tall Canada thistle. Clopyralid at 0.14 and 0.21 kg ai ha-1alone or with petroleum oil adjuvant did not injure sugarbeet. Tank mixing clopyralid with desmedipham/phenmedipham plus endothall injured sugarbeet 7 d after application in 2 of 3 yr but not when observed 14 d after application. Herbicides applied early postemergence in 1987 and late postemergence
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20

Santos, Bielinski M., and Jose P. Morales-Payan. "Tolerance of `Sunrise' Papaya to Postemergence Herbicides." HortScience 32, no. 4 (1997): 606A—606. http://dx.doi.org/10.21273/hortsci.32.4.606a.

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Trials were conducted under controlled conditions to determine the tolerance of young papaya plants (15 cm tall) to postemergence herbicides. Herbicides used were paraquat (1.68 Kg ai/Ha), MSMA (2.24 Kg ai/Ha), 2,4-D (4.26 Kg ai/Ha), bromoxynil (0.28 Kg ai/Ha), cyanazine (1.12 Kg ai/Ha), dimethenamid (1.12 Kg ai/Ha), endothal (0.56 Kg ai/Ha), imazameth (0.067 Kg ai/Ha), imazethapyr (0.028 Kg ai/Ha) lactofen (0.12 Kg ai/Ha), oxyfluorfen (0.03 Kg ai/Ha), acifluorfen (0.28 Kg ai/Ha), atrazine (2.24 Kg ai/Ha), and bentazon (1.12 Kg ai/Ha) as well as the untreated control. Atrazine, bentazon, cyana
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21

Brown, John J. "Toxicity of herbicides thiobencarb and endothall when fed to laboratory-reared Trichoplusia ni (Lepidoptera: Noctuidae)." Pesticide Biochemistry and Physiology 27, no. 1 (1987): 97–100. http://dx.doi.org/10.1016/0048-3575(87)90100-3.

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22

Matsuzawa, Masafumi, Michael J. Graziano, and John E. Casida. "Endothal and cantharidin analogs: relation of structure to herbicidal activity and mammalian toxicity." Journal of Agricultural and Food Chemistry 35, no. 5 (1987): 823–29. http://dx.doi.org/10.1021/jf00077a045.

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23

Steward, Kerry K., and Thai K. Van. "Comparative Studies of Monoecious and Dioecious Hydrilla (Hydrilla verticillata) Biotypes." Weed Science 35, no. 2 (1987): 204–10. http://dx.doi.org/10.1017/s0043174500079066.

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Selected biological and physiological parameters of hydrilla [Hydrilla verticillata(L.f.) Royle # HYLLI] biotypes were compared in growth chambers, glasshouse, or outside aquaria. Salinity tolerance was similar for both biotypes with an injury threshold of approximately 13 parts per thousand (ppt). The registered aquatic herbicides diquat (6,7-dihydrodipyrido [1,2-α:2′,1′-c] pyrazinediium ion) and dipotassium and monoamine salts of endothall (7-oxabicyclo [2.2.1] heptane-2,3-dicarboxylic acid)4produced similar injury to both biotypes. Biomass of the monoecious plants, growing in controlled env
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