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Journal articles on the topic 'Bassia scoparia (L.) A'

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Published: 5 June 2025
Last updated: 1 August 2025

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1

Mosqueda, Elizabeth G., Charlemagne A. Lim, Gustavo M. Sbatella, Prashant Jha, Nevin C. Lawrence, and Andrew R. Kniss. "Effect of crop canopy and herbicide application on kochia (Bassia scoparia) density and seed production." Weed Science 68, no. 3 (2020): 278–84. http://dx.doi.org/10.1017/wsc.2020.23.

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AbstractUnderstanding the effects of crop management practices on weed survival and seed production is imperative in improving long-term weed management strategies, especially for herbicide-resistant weed populations. Kochia [Bassia scoparia (L.) A.J. Scott] is an economically important weed in western North American cropping systems for many reasons, including prolific seed production and evolved resistance to numerous herbicide sites of action. Field studies were conducted in 2014 in a total of four field sites in Wyoming, Montana, and Nebraska to quantify the impact of different crop canopi
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2

Brignone, Nicolás F., and Silvia S. Denham. "Toward an Updated Taxonomy of the South American Chenopodiaceae I: Subfamilies Betoideae, Camphorosmoideae, and Salsoloideae." Annals of the Missouri Botanical Garden 106 (February 5, 2021): 10–30. http://dx.doi.org/10.3417/2020615.

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This paper is the first in a projected series of publications treating the Chenopodiaceae in South America. We present here a taxonomic revision of subfamilies Betoideae, Camphorosmoideae, and Salsoloideae in South America, where all representatives of these subfamilies are introduced. Our research is based on the study of herbarium material, type specimens, digital images, original publications, and field observations. The South American Chenopodiaceae flora includes only Beta vulgaris L. from Betoideae, Bassia hyssopifolia (Pall.) Kuntze, Bassia scoparia (L.) A. J. Scott, and Maireana brevif
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3

Protska, Viktoriia, and Iryna Zhuravel. "The study of Kochia scoparia (L.) Schrad. herb fatty acid composition." Annals of Mechnikov Institute, no. 2 (June 11, 2022): 47–50. https://doi.org/10.5281/zenodo.6634796.

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<strong>Introduction. </strong>The <em>Kochia scoparia </em>(L.) Schrad., which is also designated <em>Bassia scoparia</em> is a member of the <em>Amaranthaceae</em> Juss. family, native to Africa and Far East Asia. In Ukraine, <em>Kochia scoparia </em>(L.) Schrad. is grown as an ornamental plant. For its visual resemblance, it is often called the &quot;summer cypress&quot;.According data literature, <em>Kochia scoparia </em>(L.) Schrad. contained triterpenoid saponins, alkaloids, flavonoids, carbohydrates, vitamins, fatty acids, volatile oil and trace elements. The fruit of Kochia scoparia (L
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Kumar, Vipan, Prashant Jha, Charlemagne A. Lim, and Phillip W. Stahlman. "Differential Germination Characteristics of Dicamba-Resistant Kochia (Bassia scoparia) Populations in Response to Temperature." Weed Science 66, no. 6 (2018): 721–28. http://dx.doi.org/10.1017/wsc.2018.54.

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AbstractDicamba-resistant (DR) kochia [Bassia scoparia(L.) A. J. Scott] has been reported in six U.S. states and one Canadian province. To develop effectiveB. scopariacontrol tactics, it is necessary to understand the seed germination pattern of DRB. scoparia. The objective of this study was to compare the germination characteristics of DR versus dicamba-susceptible (DS)B. scopariapopulations from Montana and Kansas under constant (5 to 35 C) and/or alternating temperatures (5/10 to 30/35 C). DRB. scoparialines from Montana were generated after three generations of recurrent selection of field
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5

Friesen, Lyle F., Hugh J. Beckie, Suzanne I. Warwick, and Rene C. Van Acker. "The biology of Canadian weeds. 138. Kochia scoparia (L.) Schrad." Canadian Journal of Plant Science 89, no. 1 (2009): 141–67. http://dx.doi.org/10.4141/cjps08057.

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Kochia [Kochia scoparia (L.) Schrad.] is an annual broadleaf weed species native to Eurasia and introduced as an ornamental to the Americas by immigrants in the mid- to late 1800s. Although sometimes categorized in the genus Bassia, there is no compelling reason for this classification. This naturalized species is a common and economically important weed in crop production systems and ruderal areas in semiarid to arid regions of North America, and has expanded northward in the Canadian Prairies during the past 30 yr. Although primarily self-pollinated, substantial pollen-mediated gene flow and
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6

Ou, Junjun, Allan K. Fritz, Phillip W. Stahlman, Randall S. Currie, and Mithila Jugulam. "Glyphosate- and Dicamba-Resistant Genes Are Not Linked in Kochia (Bassia scoparia)." Weed Science 67, no. 1 (2018): 16–21. http://dx.doi.org/10.1017/wsc.2018.78.

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AbstractKochia [Bassia scoparia(L.) A. J. Scott] is one of the most troublesome weeds throughout the North American Great Plains. Herbicides such as glyphosate and dicamba have been used widely to controlB. scopariafor decades. However, manyB. scopariapopulations have evolved resistance to these herbicides due to selection. Especially, dicamba-resistantB. scopariapopulations are often also found to be glyphosate-resistant. The objective of this research was to determine whether these two herbicide resistances are linked inB. scoparia.Reciprocal crosses were performed between glyphosate- and di
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7

Oseland, Eric, Mandy Bish, Christine Spinka, and Kevin Bradley. "Examination of commercially available bird feed for weed seed contaminants." Invasive Plant Science and Management 13, no. 1 (2020): 14–22. http://dx.doi.org/10.1017/inp.2020.2.

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AbstractIn 2016 and 2017, 98 separate commercially available bird feed mixes were examined for the presence of weed seed. All weed seed contaminants were counted and identified by species. Amaranthus species were present in 94 of the 98 bags of bird feed. Amaranthus species present in bird feed mixes included waterhemp [Amaranthus tuberculatus (Moq.) Sauer], redroot pigweed (Amaranthus retroflexus L.), Palmer amaranth (Amaranthus palmeri S. Watson), smooth pigweed (Amaranthus hybridus L.), and tumble pigweed (Amaranthus albus L.). Amaranthus palmeri was present in 27 of the 98 mixes. Seed of c
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8

Osipitan, O. Adewale, J. Anita Dille, Muthukumar V. Bagavathiannan, and Stevan Z. Knezevic. "Modeling Population Dynamics of Kochia (Bassia scoparia) in Response to Diverse Weed Control Options." Weed Science 67, no. 1 (2019): 57–67. http://dx.doi.org/10.1017/wsc.2018.85.

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AbstractKochia [Bassia scoparia(L.) A. J. Scott] is a problematic weed species across the Great Plains, as it is spreading fast and has developed herbicide-resistant biotypes. It is imperative to understand key life-history stages that promote population expansion ofB. scopariaand control strategies that would provide effective control of these key stages, thereby reducing population growth. Diversifying weed control strategies has been widely recommended for the management of herbicide-resistant weeds. Therefore, the objectives of this study were to develop a simulation model to assess the po
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Kumar, Vipan, Prashant Jha, Mithila Jugulam, Ramawatar Yadav, and Phillip W. Stahlman. "Herbicide-Resistant Kochia (Bassia scoparia) in North America: A Review." Weed Science 67, no. 1 (2018): 4–15. http://dx.doi.org/10.1017/wsc.2018.72.

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AbstractKochia [Bassia scoparia(L.) A. J. Scott] is a problematic annual broadleaf weed species in the North American Great Plains.Bassia scopariainherits unique biological characteristics that contribute to its propensity to evolve herbicide resistance. Evolution of glyphosate resistance inB. scopariahas become a serious threat to the major cropping systems and soil conservation practices in the region.Bassia scopariapopulations with resistance to four different herbicide sites of action are a concern for growers. The widespread occurrence of multiple herbicide–resistant (HR)B. scopariaacross
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10

Torbiak, Alysha T., Robert E. Blackshaw, Randall N. Brandt, Bill Hamman, and Charles M. Geddes. "Herbicide strategies for managing glyphosate-resistant and -susceptible kochia (Bassia scoparia) in spring wheat." Canadian Journal of Plant Science 101, no. 4 (2021): 607–21. http://dx.doi.org/10.1139/cjps-2020-0303.

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Kochia [Bassia scoparia (L.) A.J. Scott] is a summer annual tumbleweed that is tolerant of heat, drought, and salinity and capable of causing large yield losses in spring wheat (Triticum aestivum L). Increased incidence of glyphosate- and acetolactate synthase (ALS) inhibitor-resistant kochia in western Canada warrants investigation of alternative herbicides to manage these biotypes. Herbicides applied pre- or post-emergence in spring wheat were evaluated based on crop tolerance and control of ALS inhibitor-resistant kochia accessions with and without the glyphosate resistance trait in five en
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11

Abella, Scott R., Lindsay P. Chiquoine, Jeremy M. Moss, Eric D. Lassance, and Charles D. Schelz. "Developing minimal-input techniques for invasive plant management: perimeter treatments enlarge native grass patches." Invasive Plant Science and Management 13, no. 2 (2020): 108–13. http://dx.doi.org/10.1017/inp.2020.9.

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AbstractThere is a continual need for invasive plant science to develop approaches for cost-effectively benefiting native over nonnative species in dynamic management and biophysical contexts, including within predominantly nonnative plant landscapes containing only small patches of native plants. Our objective was to test the effectiveness of a minimal-input strategy for enlarging native species patches within a nonnative plant matrix. In Pecos National Historical Park, New Mexico, USA, we identified 40 native perennial grass patches within a matrix of the nonnative annual forb kochia [Bassia
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12

Wu, Chenxi, Vijaya Varanasi, and Alejandro Perez-Jones. "A nondestructive leaf-disk assay for rapid diagnosis of weed resistance to multiple herbicides." Weed Science 69, no. 3 (2021): 274–83. http://dx.doi.org/10.1017/wsc.2021.15.

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AbstractWeed resistance surveys that monitor the spread of resistant weeds have mainly been conducted through time-consuming, labor-intensive, and destructive greenhouse herbicide screens. As an alternative, we introduce here a nondestructive leaf-disk assay based on chlorophyll fluorescence (Fv/Fm values that measure photosynthetic efficiency) that allows the detection of resistance to both systemic and contact herbicides within ∼48 h. The current study validated the assay for detecting resistance to fomesafen, glyphosate, and dicamba in Palmer amaranth (Amaranthus palmeri S. Watson), waterhe
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Geddes, Charles M., and Michael T. Kimmins. "Wheat Density Alters but Does Not Repress the Expression of a Fluroxypyr-Resistant Kochia (Bassia scoparia) Phenotype." Agronomy 11, no. 11 (2021): 2160. http://dx.doi.org/10.3390/agronomy11112160.

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Dose-response experiments for confirmation of herbicide-resistant weeds are almost always conducted using weed monocultures, thereby ignoring the interaction of interspecific plant interference with herbicide efficacy. Controlled-environment dose-response bioassays were conducted using three kochia [Bassia scoparia (L.) A.J. Scott] populations with four spring wheat (Triticum aestivum L.) densities (0, 200, 400, and 600 plants m−2) to determine how increasing intensity of interspecific plant interference altered the fluroxypyr dose-response relationship of resistant and susceptible kochia. The
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Chen, Jinyi, Erin Burns, Margaret Fleming, and Eric Patterson. "Impact of Climate Change on Population Dynamics and Herbicide Resistance in Kochia (Bassia scoparia (L.) A. J. Scott)." Agronomy 10, no. 11 (2020): 1700. http://dx.doi.org/10.3390/agronomy10111700.

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Climate change has greatly impacted agronomy. Climate forecasts for the coming years predict increases in global temperature, carbon dioxide concentration, and extreme weather events. These changes will continue to influence agricultural production by altering abiotic stress on plants, including crops and weeds. Kochia, one of the most common weeds in North America, is a C4 plant exceptional for its drought tolerance. Kochia has also demonstrated rapid adaption and evolution to the abiotic stress of herbicide application, particularly glyphosate. Abiotic stresses from both climate change and h
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15

Geddes, Charles M. "Burial Environment Drives Seed Mortality of Kochia (Bassia scoparia), Wild Oat (Avena fatua), and Volunteer Canola (Brassica napus) Irrespective of Crop Species." Plants 10, no. 9 (2021): 1961. http://dx.doi.org/10.3390/plants10091961.

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Models of weed population demography are critical to understanding the long-term viability of management strategies. The driving factors of weed seedbank persistence are often underrepresented in demographic models due to the cumbersome nature of seedbank research. Simplification of weed seedbank dynamics may induce substantial error in model simulations. A soil bioassay was conducted to determine whether growth of different crop species, including wheat (Triticum aestivum L.), canola (Brassica napus L.), and field pea (Pisum sativum L.), differentially impact seed mortality of kochia [Bassia
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Osipitan, O. Adewale, and J. Anita Dille. "No Impact of Increased EPSPS Gene Copy Number on Growth and Fecundity of Glyphosate-Resistant Kochia (Bassia scoparia)." Weed Science 67, no. 1 (2018): 22–28. http://dx.doi.org/10.1017/wsc.2018.82.

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AbstractThe level of glyphosate resistance in kochia [Bassia scoparia(L.) A. J. Scott] was reported to be due to an increase in 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS) gene copy number. A field study was conducted near Manhattan, KS, in 2014 and 2015 to evaluate the relationship between EPSPS gene copy number and growth and fecundity variables ofB. scopariaindividuals within suspected glyphosate-resistant (GR) populations from western Kansas. Initial assays of EPSPS gene copy and in vivo shikimate accumulation showed thatB. scopariapopulations from Finney (FN-R), Scott (SC-R), and
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Genna, Nicholas, Jennifer Gourlie, and Judit Barroso. "Herbicide Efficacy of Spot Spraying Systems in Fallow and Postharvest in the Pacific Northwest Dryland Wheat Production Region." Plants 10, no. 12 (2021): 2725. http://dx.doi.org/10.3390/plants10122725.

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Real-time spot spraying technology has the potential to reduce herbicide costs and slow herbicide resistance. However, few studies exist on the efficacy of this technology in the Pacific Northwest (PNW). This research compared the herbicide efficacy (reduction in weed density and cover) of WEED-IT and WeedSeeker spot spraying systems to uniform spraying in fallow and postharvest in 2019 and 2020. Weed community types included naturally occurring weeds, natural + Russian thistle (Salsola tragus L.), or natural + kochia (Bassia scoparia (L.) A. J. Scott). Herbicides included glyphosate or the pr
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Wan, Haiying, Wei Fu, Zhenxing Zhu, et al. "Characterization of the complete chloroplast genome sequence of Bassia scoparia (L.) A. J. Scott 1978 (Amaranthaceae) and its phylogenetic analysis." Mitochondrial DNA Part B 9, no. 6 (2024): 787–92. http://dx.doi.org/10.1080/23802359.2024.2364959.

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Córdoba, M. C., Ll Martínez-Priego, and C. Jordá. "New Natural Hosts of Pepino mosaic virus in Spain." Plant Disease 88, no. 8 (2004): 906. http://dx.doi.org/10.1094/pdis.2004.88.8.906d.

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Pepino mosaic virus (PepMV) was first detected in Spain in 2000 (1). The virus infects tomato (Lycopersicon esculentum Mill.) crops and causes a variety of symptoms including leaf distortion, chlorosis, mosaic, blistering of the leaf surface, green striations on the stem and sepals, and fruit discoloration. PepMV is present along the southern and eastern regions of Spain (provinces of Granada, Almeria, Murcia, Alicante, Valencia, and Barcelona), Balearic, and the Canary Islands. In the summer and autumn of 2001 and 2002, virus-like symptoms were observed in native plants growing in or around t
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Sukhorukov, Alexander P., Zhibin Wen, Anastasiya A. Krinitsina, et al. "A Revised Taxonomy of the Bassia scoparia Complex (Camphorosmoideae, Amaranthaceae s.l.) with an Updated Distribution of B. indica in the Mediterranean Region." Plants 14, no. 3 (2025): 398. https://doi.org/10.3390/plants14030398.

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Bassia scoparia is a widespread weedy species in the temperate regions of the world and is valued as a medicinal and ornamental plant. To date, the taxonomic concept of B. scoparia remains insufficiently studied due to a limited number of samples used in the previous phylogenetic analyses. To solve the taxonomy of the B. scoparia complex, we constructed a new phylogeny based on the nuclear ribosomal internal transcribed spacer (ITS), plastid intergenic spacer atpB-rbcL, and plastid region rpL16 intron sequences for numerous samples with diverse morphology. Our analysis revealed a close proximi
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Ali, Esmail Al-Snafi. "A REVIEW ON PHARMACOLOGICAL ACTIVITIES OF KOCHIA SCOPARIA- A REVIEW." INDO AMERICAN JOURNAL OF PHARMACEUTICAL SCIENCES 05, no. 04 (2018): 2213–21. https://doi.org/10.5281/zenodo.1215000.

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Kochia scoparia contained triterpenoid glycosides, alkaloids, saponins, and many other compounds. The stem and leaves of the plant contained essential nutrients such as protein and fiber, carbohydrates, carotene, vitamin C, vitamin B1 and vitamin B2, nicotinic acid, and trace elements. The pharmacological studies revealed that Kochia scoparia possessed antibacterial, antiparasitic, anti-cancer, antidiabetic, antioxidant, dermatological, antiallergiic, anti-inflammatory, analgesic, obesity preventive effects and inhibition of renin activity. This review will highlight the chemical constituents
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Geddes, Charles M., and Shaun M. Sharpe. "Crop yield losses due to kochia (Bassia scoparia) interference." Crop Protection 157 (July 2022): 105981. http://dx.doi.org/10.1016/j.cropro.2022.105981.

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Vyal, Yulia Alexandrovna, Natalia Grigorjevna Mazey, Lubov Alexandrovna Novikova, and Anna Andreevna Mironova. "Peculiarities of ontogenesis of Bassia laniflora (S.G. Gmel.) A.J. Scott. (Chenopodiaceae)." Samara Journal of Science 4, no. 2 (2015): 57–61. http://dx.doi.org/10.17816/snv20152116.

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Peculiarities of ontogenesis and phytosociology of Bassia laniflora (S.G. Gmel.) A.J. Scott (family Chenopodiaceae) in South of Penza region on sandy soils is studied. Bassia laniflora grows in the composition of sparse forb sandy steppes, together with Achillea nobilis L., Erigeron сanadensis L., Rumex acetosella L., Artemisia pontica L., acting as dominant and codominant. Participation of Bassia laniflora in plant communities115%. Age status and as well as biometric characteristics are described (two age periodvirgin, generative; five age status seedling plants, juvenile, immature, virgin, g
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ЛОМОНОСОВА, М. Н., А. П. СУХОРУКОВ та Н. В. СИНЕЛЬНИКОВА. "ХРОМОСОМНЫЕ ЧИСЛА ПРЕДСТАВИТЕЛЕЙ CHENOPODIACEAE, AMARANTHACEAE ИЗ ИСПАНИИ, ЕГИПТА, СИРИИ И НЕПАЛА, "БОТАНИЧЕСКИЙ ЖУРНАЛ"". Ботанический журнал, № 9 (2012): 1235–38. http://dx.doi.org/10.1134/s1234567812090091.

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Приведены числа хромосом (2n) для 10 видов из семейств Chenopodiaceae и Amaranthaceae из Испании, Египта, Сирии и Непала. Для Acroglochin persicarioides, Salsola divaricata и Kali jacquemontii число хромосом определено впервые. Новые данные по числам хромосом получены на материале из Египта для Amaranthus hybridus, A. viridis, Chenopodium murale; из Испании -для Atriplex suberecta и Chenopodium murale; из Непала - для Chenopodium giganteum и Bassia scoparia. Для Amaranthus hybridus установлен новый цитотип 2n = 16 из Египта. Большинство изученных образцов имеет число хромосом 2n = 18, за исклю
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Sukhorukov, Alexander P., Pei-Liang Liu, and Maria Kushunina. "Taxonomic revision of Chenopodiaceae in Himalaya and Tibet." PhytoKeys 116 (January 31, 2019): 1–141. https://doi.org/10.3897/phytokeys.116.27301.

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The composition of many Chenopodiaceae genera in different parts of Himalaya and Tibet has been insufficiently known or contradictory. A revision of the family in Himalaya including Bhutan, Nepal, parts of India (Himachal Pradesh, Jammu and Kashmir, Sikkim and Uttarakhand) and Tibet (Xizang, China) is presented for the first time. Altogether, 57 species from 20 genera are reported, including three species new to science (Agriophyllum tibeticum, Salsola austrotibetica and Salsola hartmannii). Atriplex centralasiatica, Corispermum dutreuilii and Salsola monoptera are identified as new records fo
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Sbatella, Gustavo M., Albert T. Adjesiwor, Andrew R. Kniss, et al. "Herbicide options for glyphosate-resistant kochia (Bassia scoparia) management in the Great Plains." Weed Technology 33, no. 5 (2019): 658–63. http://dx.doi.org/10.1017/wet.2019.48.

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AbstractKochia is one of the most problematic weeds in the United States. Field studies were conducted in five states (Wyoming, Colorado, Kansas, Nebraska, and South Dakota) over 2 yr (2010 and 2011) to evaluate kochia control with selected herbicides registered in five common crop scenarios: winter wheat, fallow, corn, soybean, and sugar beet to provide insight for diversifying kochia management in crop rotations. Kochia control varied by experimental site such that more variation in kochia control and biomass production was explained by experimental site than herbicide choice within a crop.
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Adeyemi, Olanrewaju E., Eric P. Westra, Corey V. Ransom, J. Earl Creech, and Mirella F. Ortiz. "Status of Kochia (Bassia Scoparia) Herbicide Resistance in The Western US." Outlooks on Pest Management 36, no. 2 (2025): 55–58. https://doi.org/10.1564/v36_apr_04.

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Whitney, Heather M., Olga Sayanova, John A. Pickett, and Johnathan A. Napier. "Isolation and expression pattern of two putative acyl‐ACP desaturase cDNAs from Bassia scoparia." Journal of Experimental Botany 55, no. 397 (2004): 787–89. http://dx.doi.org/10.1093/jxb/erh072.

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Westra, Eric P., Scott J. Nissen, Thomas J. Getts, Philip Westra, and Todd A. Gaines. "Survey reveals frequency of multiple resistance to glyphosate and dicamba in kochia (Bassia scoparia)." Weed Technology 33, no. 5 (2019): 664–72. http://dx.doi.org/10.1017/wet.2019.54.

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AbstractGlyphosate-resistant (GR) kochia has been reported across the western and midwestern United States. From 2011 to 2014, kochia seed was collected from agronomic regions across Colorado to evaluate the frequency and distribution of glyphosate-, dicamba-, and fluroxypyr-resistant kochia, and to assess the frequency of multiple resistance. Here we report resistance frequency as percent resistance within a population, and resistance distribution as the percentage and locations of accessions classified as resistant to a discriminating herbicide dose. In 2011, kochia accessions were screened
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Sukhorukov, A. P., and M. A. Kushunina. "Morphology, nomenclature and distribution of Bassia monticola (Chenopodiaceae-Amaranthaceae), a poorly known species from Western Asia." Novitates Systematicae Plantarum Vascularium, no. 51 (2020): 13–17. http://dx.doi.org/10.31111/novitates/2020.51.13.

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Kochia monticola was previously considered as a synonym for the widely distributed Irano-Turanian Panderia pilosa. After the merger of Kochia and Panderia with Bassia based on molecular phylogeny, K. monticola remained a synonym of Bassia pilosa. We claim that Bassia monticola, a name proposed by Kuntze (1891) for K. monticola, should be separated from B. pilosa based on morphological characters and localised distribution in mountainous regions of Iran, Iraq, Syria, and Lebanon at altitudes 1800–2600 m a. s. l.
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Desserud, P. A., and C. Hugenholtz. "Do Three Invasive Species: Amaranthus blitoides, Descurainia sophia and Bassia scoparia, Respond to Soil Properties?" Ecological Restoration 33, no. 2 (2015): 127–30. http://dx.doi.org/10.3368/er.33.2.127.

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Yadav, Ramawatar, Vipan Kumar, and Prashant Jha. "Herbicide programs to manage glyphosate/dicamba-resistant kochia (Bassia scoparia) in glyphosate/dicamba-resistant soybean." Weed Technology 34, no. 4 (2020): 568–74. http://dx.doi.org/10.1017/wet.2020.3.

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AbstractEvolution of kochia resistance to glyphosate and dicamba is a concern for growers in the US Great Plains. An increasing use of glyphosate and dicamba with the widespread adoption of glyphosate/dicamba-resistant (GDR) soybean in recent years may warrant greater attention. Long-term stewardship of this new stacked-trait technology will require the implementation of diverse weed control strategies, such as the use of soil-residual herbicides (PRE) aimed at effective control of GDR kochia. Field experiments were conducted in Huntley, MT, in 2017 and 2018, and Hays, KS, in 2018 to determine
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El-Sayed, Mortada. "MOLLUSCICIDAL SAPONINS FROM BASSIA MURICATA (L.) MURR." Zagazig Journal of Pharmaceutical Sciences 2, no. 2 (1993): 92–102. http://dx.doi.org/10.21608/zjps.1993.187355.

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Kumar, Vipan, Randall S. Currie, Prashant Jha, and Phillip W. Stahlman. "First Report of Kochia (Bassia scoparia) with Cross-Resistance to Dicamba and Fluroxypyr in Western Kansas." Weed Technology 33, no. 2 (2019): 335–41. http://dx.doi.org/10.1017/wet.2018.113.

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AbstractEvolution and rapid spread of herbicide-resistant (HR) kochia has become a significant challenge for growers in the U.S. Great Plains. The main objectives of this research were to confirm and characterize the response of putative auxinic HR (Aux-HR) kochia accessions (designated as KS-4A, KS-4D, KS-4H, KS-10A, KS-10-G, and KS-10H) collected from two different corn fields near Garden City, KS, to dicamba and fluroxypyr and to determine the EPSPS gene copy number to detect whether those accessions were also resistant to glyphosate. Single-dose experiments indicated that putative Aux-HR k
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35

Moubasher, H. A., A. K. Hegazy, N. H. Mohamed, Y. M. Moustafa, H. F. Kabiel, and A. A. Hamad. "Phytoremediation of soils polluted with crude petroleum oil using Bassia scoparia and its associated rhizosphere microorganisms." International Biodeterioration & Biodegradation 98 (March 2015): 113–20. http://dx.doi.org/10.1016/j.ibiod.2014.11.019.

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36

Kumar, Vipan, Ryan P. Engel, Randall Currie, Prashant Jha, Phillip W. Stahlman, and Curtis Thompson. "Dicamba-resistant kochia (Bassia scoparia) in Kansas: characterization and management with fall- or spring-applied PRE herbicides." Weed Technology 33, no. 2 (2019): 342–48. http://dx.doi.org/10.1017/wet.2019.4.

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AbstractDicamba-resistant (DR) kochia is an increasing concern for growers in the US Great Plains, including Kansas. Greenhouse and field experiments (Garden City and Tribune, KS, in the 2014 to 2015 growing season) were conducted to characterize the dicamba resistance levels in two recently evolved DR kochia accessions collected from fallow fields (wheat–sorghum–fallow rotation) near Hays, KS, and to determine the effectiveness of various PRE herbicide tank mixtures applied in fall or spring prior to the fallow year. Dicamba dose–response studies indicated that the KS-110 and KS-113 accession
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37

Antunes, Bruno Lopes, Beatriz Grosso Fleury, MutueToyota Fujii, and Valéria Laneuville Teixeira. "Sesquiterpenes of the Brazilian Marine Red Alga Laurencia filiformis (Rhodophyta, Ceramiales)." Natural Product Communications 3, no. 10 (2008): 1934578X0800301. http://dx.doi.org/10.1177/1934578x0800301013.

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Sesquiterpenes from the red algal genus Laurencia appear to be valuable taxonomic markers and have shown, for various species, strong correlation with morphological data. In the present study, four chamigrane sesquiterpenes (1–4) were isolated from L. filiformis collected in Salvador, Brazil; these compounds have also been reported for L. scoparia. As discussed by various phycologists, Brazilian specimens of L. scoparia should be considered synonymous with L. filiformis.
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Srinivas, Kota, Narra Muralikrishna, Kalva Bharath Kumar, et al. "Biolistic transformation of Scoparia dulcis L." Physiology and Molecular Biology of Plants 22, no. 1 (2016): 61–68. http://dx.doi.org/10.1007/s12298-016-0338-2.

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39

BINU, T. V., and B. VIJAYAKUMARI. "Pharmacognostic aspect of Scoparia dulcis L." Biomedical & Pharmacology Journal 5, no. 2 (2012): 375–78. http://dx.doi.org/10.13005/bpj/370.

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40

Mosyakin, S. L., and B. Mandák. "Nomenclatural and taxonomic comments on some taxa of Chenopodiaceae of the Himalayas and Tibet/Xizang." Ukrainian Botanical Journal 77, no. 6 (2020): 413–27. http://dx.doi.org/10.15407/ukrbotj77.06.413.

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Nomenclatural corrections and comments are provided on several taxa of Chenopodiaceae occurring in the Himalayas and Xizang/Tibet and adjacent areas, following the recent monographic revision of the family in that region and earlier publications. In particular, the original identity of the name Atriplex bengalensis (Chenopodium bengalense) is discussed and it is confirmed, based on additional evidence, that the name was originally (before its epitypification in 2014) applicable to a robust diploid of the Chenopodium ficifolium aggregate, not to the robust hexaploid currently known as C. gigant
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41

Ripka, Géza, and Attila Takács. "Description of a new eriophyid species from Hungary (Acari: Acariformes: Eriophyidae)." Folia Entomologica Hungarica 82 (2021): 109–20. http://dx.doi.org/10.17112/foliaenthung.2021.82.109.

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A new species of eriophyid mites, Aceria bassicola sp. n. (Acari: Acariformes: Eriophyoidea: Eriophyidae), collected from Bassia prostrata (L.) Beck (Amaranthaceae), is described from Hungary based on females, males and nymphs.
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42

Ripka, Géza, and Attila Takács. "Description of a new eriophyid species from Hungary (Acari: Acariformes: Eriophyidae)." Folia entomologica hungarica 82 (December 1, 2021): 109–20. https://doi.org/10.17112/FoliaEntHung.2021.82.109.

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A new species of eriophyid mites, Aceria bassicola sp. n. (Acari: Acariformes: Eriophyoidea: Eriophyidae), collected from Bassia prostrata (L.) Beck (Amaranthaceae), is described from Hungary based on females, males and nymphs.
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43

KOROTYAEV, BORIS A., NESLİHAN GÜLTEKİN, and LEVENT GÜLTEKİN. "A new species Asproparthenis omeri sp. nov. (Coleoptera: Curculionidae: Lixinae) from the Aras valley in Northeastern Turkey." Journal of Insect Biodiversity 17, no. 1 (2020): 12–27. http://dx.doi.org/10.12976/jib/2020.17.1.2.

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A new species Asproparthenis omeri sp. nov. closely related to A. vexata (Gyllenhal, 1834) is described in the tribe Cleonini (Curculionidae) from the Aras River valley in Northeastern Turkey. The new species is the first representative of the genus Asproparthenis Gozis, 1886 with vestigial hind wings. Digital photographs of diagnostic morphological features of the new species and A. vexata are provided. Adults of the new species feed on leaves of a halophilic chenopod Bassia hirsuta (L.) Ascherson that dominates vegetation in the saline and desertified habitat in the type locality. Key words:
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T, Thushara, and Devipriya V. "TISSUE CULTURE STUDIES ON SCOPARIA DULCIS L." International Journal of Advanced Research 5, no. 9 (2017): 811–19. http://dx.doi.org/10.21474/ijar01/5392.

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HAYASHI, TOSHIMITSU, KUMIKO UCHIDA, KYOKO HAYASHI, SEIHACHIRO NIWAYAMA, and NAOKATA MORITA. "A cytotoxic flavone from Scoparia dulcis L." CHEMICAL & PHARMACEUTICAL BULLETIN 36, no. 12 (1988): 4849–51. http://dx.doi.org/10.1248/cpb.36.4849.

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Muralikrishna, Narra, Kota Srinivas, Kalva Bharath Kumar, and Abbagani Sadanandam. "Stable plastid transformation in Scoparia dulcis L." Physiology and Molecular Biology of Plants 22, no. 4 (2016): 575–81. http://dx.doi.org/10.1007/s12298-016-0386-7.

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Ickovski, Jovana, Olga Jovanovic, Bojan Zlatkovic, et al. "Variations in the composition of essential oils of selected Artemisia species as a function of soil type." Journal of the Serbian Chemical Society 86, no. 12 (2021): 1259–69. http://dx.doi.org/10.2298/jsc210803094i.

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Five Artemisia species (seven A. alba Turra samples and twelve samples of each four remaining species: A. absinthium L., A. annua L., A. vulgaris L. and A. scoparia Waldst. &amp; Kit.) from Serbia were studied from the aspect of essential oil chemical composition, and potential correlations between essential oil composition with soil type determined using World Reference Base for Soil Resources (WRB). A great variety in essential oil composition was observed for A. alba, A. absinthium and A. vulgaris samples, while in the case of A. annua, as well as A. scoparia, the composition of the examine
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48

Denisov, Konstantin Evgenyevich, Petr Vladimirovich Tarasenko, Ilya Sergeevich Poletaev, and Valentin Vasylyevich Zuev. "Assessment of phytomeliorative efficiency of Kochia scoparia (L.) schrad." Agrarian Scientific Journal, no. 12 (December 15, 2019): 15–18. http://dx.doi.org/10.28983/asj.y2019i12pp15-18.

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&#x0D; Phytomeliorative efficiency of the annual grass Kochia scoparia (L.) schrad was assessed. The experiments were conducted on the solonetz of the southern chernozem. It was revealed that the application of high doses of sewage sludge (from 50 to 200 t / ha) contributed to an increase in the yield of green mass of Kochia scoparia by 133–362%. After the combined action of annual grass crops and organic fertilizers, the soil density decreased from 1.47 g / cm3 in the solonetz to 1.25 / cm3 in the variant with a dose of 200 t / ha, water resistance for three years of research increased by 37.
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49

Balseca Mata, Rafaela Dolores. "Screening fitoquímico y evaluación de la actividad antimicrobiana de: Catharanthus Roseus (l.) G. Don, Justicia Pectoralis Jacq. y Scoparia Dulcis l." FIGEMPA: Investigación y Desarrollo 1, no. 1 (2017): 68–78. http://dx.doi.org/10.29166/revfig.v1i1.58.

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El presente trabajo tiene como propósito; realizar el screening fitoquímico, mediante el método descrito por CIULEI y determinar la acción antimicrobiana de: Scoparia dulcis L., Justicia pectoralis Jacq, y Catharanthus roseus (L.) G. Don, mediante el método propuesto por Mitscher 1988. Este método se fundamenta en la susceptibilidad bacteriana, medida in vitro. Consiste en utilizar el extracto de interés, frente a los microorganismos de elección, en medio de agar y condiciones de completa asepsia. Catharanthus roseus (L.) G. Don es la especie que mayor cantidad de alcaloides presenta, seguida
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Ickovski, Jovana, Katarina Stepic, and Gordana Stojanovic. "Composition of essential oils and headspace constituents of Artemisia annua L. and A. scoparia Waldst. et Kit." Journal of the Serbian Chemical Society, no. 00 (2020): 61. http://dx.doi.org/10.2298/jsc200727061i.

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Headspace volatiles (HS) and hydrodistilled essential oils (EO) of fresh aerial parts of Artemisia annua L. and A. scoparia Waldst. et Kit., were analyzed by GC-MS/FID. Artemisia ketone was found to be the most abundant component among the EO volatiles (55.8 %), as well as among HS (52.1 %) of A. annua. Additionally, in both A. annua samples, EO and HS, ?-pinene (12.7 and 24.2 %, respectively) was found in high percentage. On the other hand, it has been determined that the dominant components of A. scoparia EO and HS were different; in the essential oil capillene (63.8 %) was found as the main
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