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05 06 2021 .


68.37.33

459. . .., .., .., .., .., .. // .-2020.-N 9.-. 13-19.-. .-.: .18-19. 1774.
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460. [ , Cucumis melo var. agrestis , . (. )]. Noor-Ziarat R., Rezvani M., Bagherani N., Grichar W.J. Studies on Seed biology, Distribution, and Chemical Control of Smellmelon (Cucumis melo var. agrestis Naudin): An Invasive Weed // Weed Technology.-2019.-Vol.33,N 1.-P. 202-209.-.-Bibliogr.: p.208-209. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; ; CUCUMIS MELO; ; ; ; ; ; ; ; ; ;

461. . B.., .., .., .., C.. // .-2020.-N 1.-. 22-26.-. .-.: .26. 1662.
; GLYCINE MAX; ; ; ; ; ; ; ; ;

462. [ . ()]. Geary N.D., Hatterman-Valenti H., Secor G.A., Zollinger R.K., Robinson A.P. Response of Russet Burbank' Seed Tubers Containing Dicamba and Glyphosate // Weed Technology.-2019.-Vol.33,N 1.-P. 9-16.-.-Bibliogr.: p.16. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; SOLANUM TUBEROSUM; ; ; ; ; ; ; ; ; ; ; ;
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463. [ , . -, ]. Schutte B.J., Lehnhoff E.A., Beck L.L. Evaluation of POST-Directed Applications of Flumioxazin in New Mexico Chile Pepper // Weed Technology.-2019.-Vol.33,N 1.-P. 135-141.-.-Bibliogr.: p.140-141. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; CAPSICUM ANNUUM; ; ; ; ; ; ; ; ;

464. [ , , , , , , . (. )]. Ferguson J.C., Chauhan B.S., Chechetto R.G., Hewitt A.J., Adkins S.W., Kruger G.R., O'Donnell C.C. Droplet-Size Effects on Control of Chloris spp. with Six POST Herbicides // Weed Technology.-2019.-Vol.33,N 1.-P. 153-158.-.-Bibliogr.: p.158. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; CHLORIS; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;

465. [ , . ()]. Jones G.T., Norsworthy J.K., Barber T., Gbur E., Kruger G.R. Effect of Low Doses of Dicamba Alone and in Combination with Glyphosate on Parent Soybean and Offspring // Weed Technology.-2019.-Vol.33,N 1.-P. 17-23.-.-Bibliogr.: p.23. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ; ; ; ; ; ; ;
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466. . .. // . .-2020.-.103,N 2.-. 119-133.-. .-.: .129-133. 3442.
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467. [ . ()]. Hassan M.O. Allelopathic interference of Sonchus oleraceus L. with wheat and the associated weeds: a field study // Acta agriculturae Slovenica / Univ. of Ljubljana. Biotechn. fac..-Ljubljana, 2020.-vol.115 N 1.-P. 123-131.-.-. .-Bibliogr.: p.130-131. H75-8163.
; TRITICUM; ; ; SONCHUS OLERACEUS; ; ; ;

468. [ , ]. Jones G.T., Norsworthy J.K., Barber T. Off-Target Movement of Diglycolamine Dicamba to Non-dicamba Soybean Using Practices to Minimize Primary Drift // Weed Technology.-2019.-Vol.33,N 1.-P. 24-40.-.-Bibliogr.: p.39-40. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ; ; ; ; ; ; ; ; ;

469. [ . ()]. Beam S.C., Chaudhari S., Jennings K.M., Monks D.W., Meyers S.L., Schultheis J.R., Waldschmidt M., Main J.L. Response of Palmer Amaranth and Sweetpotato to Flumioxazin/Pyroxasulfone // Weed Technology.-2019.-Vol.33,N 1.-P. 128-134.-.-Bibliogr.: p.133-134. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; IPOMOEA BATATAS; ; ; AMARANTHUS PALMERI; ; ; ; ; ; ; ; ; - ;
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470. [ , . ()]. Jones G.T., Norsworthy J.K., Barber T. Response of Soybean Offspring to a Dicamba Drift Event the Previous Year // Weed Technology.-2019.-Vol.33,N 1.-P. 41-50.-.-Bibliogr.: p.49-50. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ; ; ; ; ; ; ;

471. [ . ()]. Stephenson D.O., Spivey T.A., Deliberto M.A., Blouin D.C., Woolam B.C., Buck T.B. Effects of Low-Dose Flumioxazin and Metribuzin Postemergence Applications on Soybean // Weed Technology.-2019.-Vol.33,N 1.-P. 87-94.-.-Bibliogr.: p.93-94. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ; ; ; ; ; ;
. " "

472. [ . ()]. Buol J.T., Reynolds D.B., Dodds D.M., Anthony Mills J., Nichols R.L., Bond J.A., Jenkins J.N., DuBien J.L. Effect of Growth Stage on Cotton Response to a Sublethal Concentration of Dicamba // Weed Technology.-2019.-Vol.33,N 1.-P. 1-8.-.-Bibliogr.: p.7-8. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GOSSYPIUM HIRSUTUM; ; ; ; ; ;

473. [ , - (Eleusine indica) . , ]. Kerr R.A., McCarty L.B., Bridges W.C., Cutulle M. Key Morphological Events following Late-Season Goosegrass (Eleusine indica) Germination // Weed Technology.-2019.-Vol.33,N 1.-P. 196-201.-.-Bibliogr.: p.200-201. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; ; ; ELEUSINE INDICA; ; ; ; ; ; ; ;

474. [ N, N-- (3-)- . ()]. Jones G.T., Norsworthy J.K., Barber T., Gbur E., Kruger G.R. Off-target Movement of DGA and BAPMA Dicamba to Sensitive Soybean // Weed Technology.-2019.-Vol.33,N 1.-P. 51-65.-.-Bibliogr.: p.64-65. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ; ; ; ; ; ;

475. [ . ()]. Cholette T.B., Soltani N., Hooker D.C., Robinson D.E., Sikkema P.H. Suppression of Annual Ryegrass in Corn with Nicosulfuron // Weed Technology.-2019.-Vol.33,N 1.-P. 173-177.-.-Bibliogr.: p.177. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; ZEA MAYS; ; ; LOLIUM MULTIFLORUM; ; ; ; ; ; ;

476. [ No-Till. ()]. Vollmer K.M., VanGessel M.J., Johnson Q.R., Scott B.A. Preplant and Residual Herbicide Application Timings for Weed Control in No-Till Soybean // Weed Technology.-2019.-Vol.33,N 1.-P. 166-172.-.-Bibliogr.: p.171-172. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ; ; ; ; ;

477. [ (Lachnanthes caroliniana; Haemodoraceae), . -, ]. Besancon T.E. Carolina Redroot (Lachnanthes caroliniana) in Cranberry: Assessment of Shoot and Rhizome Control with POST Herbicides // Weed Technology.-2019.-Vol.33,N 1.-P. 210-216.-.-Bibliogr.: p.215-216. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; VACCINIUM MACROCARPON; ; LACHNANTHES CAROLINIANA; HAEMODORACEAE; ; ; ; ; ; ;

478. [ - . ()]. Butts T.R., Samples C.A., Franca L.X., Dodds D.M., Reynolds D.B., Adams J.W., Zollinger R.K., Howatt K.A., Fritz B.K., Hoffmann C.W., Luck J.D., Kruger G.R. Droplet Size Impact on Efficacy of a Dicamba-plus-Glyphosate Mixture // Weed Technology.-2019.-Vol.33,N 1.-P. 66-74.-.-Bibliogr.: p.73-74. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
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479. [ 2, 4- , . ()]. Wiedau K.N., Krausz R.F., Walters S.A., Matthews J.L., Gage K.L. Evaluating risks of plant growth regulator-resistant soybean technologies to horseradish production // Weed Technology.-2019.-Vol.33,N 1.-P. 75-86.-.-Bibliogr.: p.85-86. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ARMORACIA RUSTICANA; ; ; ; ; ; ; ; ; ;

480. [ , , S-, , , . ()]. Smith S.C., Jennings K.M., Monks D.W., Schultheis J.R., Reberg-Horton S.C. Tolerance of Sweetpotato to Herbicides Applied in Plant Propagation Beds // Weed Technology.-2019.-Vol.33,N 1.-P. 147-152.-.-Bibliogr.: p.152. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; IPOMOEA BATATAS; ; ; ; ; ; ; ; ; ; ;

481. [ . ()]. Askew S.D., Askew W.B., Goatley J.M. Fineleaf Fescue Species and Variety Tolerance to Glyphosate // Weed Technology.-2019.-Vol.33,N 1.-P. 185-191.-.-Bibliogr.: p.190-191. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; FESTUCA; ; ; ; ; ; ; ; ;

482. [ , . ()]. Chaudhari S., Jennings K.M., Culpepper S., Batts R.B., Bellinder R. Turnip Tolerance to Preplant Incorporated Trifluralin // Weed Technology.-2019.-Vol.33,N 1.-P. 123-127.-.-Bibliogr.: p.127. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; BRASSICA CAMPESTRIS VAR RAPA; ; ; ; ; ; ;
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483. [ , . ()]. Soltani N., Shropshire C., Sikkema P.H. Sensitivity of Dry Bean to Herbicides Applied Preplant for Glyphosate-Resistant Horseweed Control in a Strip-Tillage Cropping System // Weed Technology.-2019.-Vol.33,N 1.-P. 178-184.-.-Bibliogr.: p.184. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; PHASEOLUS VULGARIS; ; ; CONYZA CANADENSIS; ; ; ; ; ; ; ; ;

484. [ . , ]. Hay M.M., Shoup D.E., Peterson D.E. Herbicide Options for Control of Palmer Amaranth (Amaranthus palmeri) and Common Waterhemp (Amaranthus rudis) in Double-Crop Soybean // Weed Technology.-2019.-Vol.33,N 1.-P. 106-114.-.-Bibliogr.: p.113-114. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; AMARANTHUS PALMERI; AMARANTHUS TUBERCULATUS; ; ; ; ; ; ;

485. [ - . , ]. Hay M.M., Albers J.J., Dille J.A., Peterson D.E. Control of Atrazine-Resistant Palmer Amaranth (Amaranthus palmeri) in Double-Crop Grain Sorghum // Weed Technology.-2019.-Vol.33,N 1.-P. 115-122.-.-Bibliogr.: p.121-122. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; SORGHUM BICOLOR; ; ; AMARANTHUS PALMERI; ; ; ; ; ; ; ; ; ;

486. [ No-Till. ()]. Sarangi D., Jhala A.J. Palmer Amaranth (Amaranthus palmeri) and Velvetleaf (Abutilon theophrasti) Control in No-Tillage Conventional (Non-genetically engineered) Soybean Using Overlapping Residual Herbicide Programs // Weed Technology.-2019.-Vol.33,N 1.-P. 95-105.-.-Bibliogr.: p.103-105. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ABUTILON THEOPHRASTI; ; AMARANTHUS PALMERI; ; ; ; ; ; ; ;

487. [ ( , , ) Bourquin Organic Weed Puller. ()]. Simard M.-J., Page E.R., Nurse R.E. Can Weeds Overtopping Soybean or Adzuki Bean Be Mechanically Pulled to Reduce Their Seed Input? // Weed Technology.-2019.-Vol.33,N 1.-P. 159-165.-.-Bibliogr.: p.165. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; VIGNA ANGULARIS; ; ; ; CHENOPODIUM ALBUM; ; AMBROSIA ARTEMISIIFOLIA; ; AMARANTHUS RETROFLEXUS; ; ; ; ;

488. . .., .., .., .., .. // . / . .-. - . . . . . .-2019.-. 3(179).-. 130-140.-. .-.: .138-140. 19-4255.
; LINUM USITATISSIMUM; ; ; ; ; ; ; ; ; ; ; ; ;

489. [ - . ()]. Boyd N.S., Schumann A. Development and Evaluation of a Hole-Punch Applicator for Precision Application of Preemergence Herbicides in Plasticulture Production // Weed Technology.-2019.-Vol.33,N 1.-P. 142-146.-.-Bibliogr.: p.146. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
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490. [ - , ]. Lucio F.R., Kalsing A., Adegas F.S., Santi Rossi C.V., Correia N.M., Pisa Gazziero D.L., da Silva A.F. Dispersal and Frequency of Glyphosate-Resistant and Glyphosate-Tolerant Weeds in Soybean-producing Edaphoclimatic Microregions in Brazil // Weed Technology.-2019.-Vol.33,N 1.-P. 217-231.-.-Bibliogr.: p.230-231. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; GLYCINE MAX; ; ; ; ; ; ; - ;

491. Lactuca serriola, Lactuca sibirica Lactuca tatarica (Compositae) . .., .. // . .-2020.-.103,N 2.-. 133-144.-. .-.: .139-143. 3442.
; LACTUCA SERRIOLA; LACTUCA SIBIRICA; LACTUCA TATARICA; ; ;

492. [ , , , ., ; . ()]. Delchev G. Selectivity and stability of herbicides and herbicide combinations based on grain yield from winter oilseed canola (Brassica napus L.) // 1st International Symposium: Modern Trends in Agricultural Production and Environmental Protection, Tivat-Montenegro, July 02-05. 2019.-SaTCIP d.o.o. Vrnjacka Banja, 2019.-P. 287-298.-.-Bibliogr.: p.292-293. H20-43.
; BRASSICA NAPUS; ; ; ; ; ; ; ; ; ; ;

493. [ , , , , ; . ()]. Delchev G. Selectivity and stability of herbicides and herbicide combinations based on grain yield from sorghum (Sorghum bicolor Moench.) // 1st International Symposium: Modern Trends in Agricultural Production and Environmental Protection, Tivat-Montenegro, July 02-05. 2019.-SaTCIP d.o.o. Vrnjacka Banja, 2019.-P. 279-286.-.-Bibliogr.: p.284-286. H20-43.
; SORGHUM BICOLOR; ; ; ; ; ; ; ; ;

494. [ (Yucca glauca) . ()]. Fick W.H., Harmoney K. Great Plains Yucca (Yucca glauca) Control on Shortgrass Rangelands // Weed Technology.-2019.-Vol.33,N 1.-P. 192-195.-.-Bibliogr.: p.195. *https://www.cambridge.org/core/journals/weed-technology/all-issues.
; ; ; ; ; YUCCA GLAUCA; ; ; ; ;



        

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