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Статті в журналах з теми "Growing plants"

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Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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1

Hart, Tara. "Growing plants." 5 to 7 Educator 2010, no. 62 (February 2010): viii—ix. http://dx.doi.org/10.12968/ftse.2010.9.2.45955.

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2

Mountain, Julie. "Growing plants." Practical Pre-School 2009, no. 99 (April 2009): 15–16. http://dx.doi.org/10.12968/prps.2009.1.99.40960.

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3

Hodgson, John. "Growing Plants & Growing Companies." Nature Biotechnology 8, no. 7 (July 1990): 624–28. http://dx.doi.org/10.1038/nbt0790-624.

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4

Jones,, J. Benton. "Growing Plants Hydroponically." American Biology Teacher 47, no. 6 (September 1985): 356–58. http://dx.doi.org/10.2307/4448083.

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5

Hale, R. "Growing pharmaceuticals in plants." ACOG Clinical Review 8, no. 6 (July 2003): 1–16. http://dx.doi.org/10.1016/s1085-6862(03)00015-3.

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6

Salt, Bernard. "Growing plants in school." Journal of Biological Education 24, no. 2 (June 1990): 103–7. http://dx.doi.org/10.1080/00219266.1990.9655119.

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7

Youngman, Angela. "Growing plants for craft." Child Care 8, no. 1 (January 2011): 30–31. http://dx.doi.org/10.12968/chca.2011.8.1.30.

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8

Elton, Sarah. "Growing Methods." Environmental Humanities 13, no. 1 (May 1, 2021): 93–112. http://dx.doi.org/10.1215/22011919-8867219.

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Анотація:
Abstract A methodology for plant qualitative research is at an early stage of development. While conducting a multispecies ethnography of gardeners and the plants they grow for food in a neighborhood in transition from social housing to a mixed-income community in Toronto, the author wondered, How to account for plants and their agency? What is evidence of vegetal politics? What is a multispecies ethnographer doing when decentering the human in relation to garden plants, beyond what is un-done ontologically? This article situates itself in the plant turn and proposes a methodology to account for plant agency in gardens and to identify vegetal politics. The author builds on the methodological work of other scholars of human-plant relations and posthumanist notions of relational agency to develop a three-step method: (1) recognize plant time, (2) participate with plants, and (3) scale up. Central to the methodology—and a key contribution the author puts forward—is a shift away from the researcher considering plants as individuals and instead understanding plant communities as the unit of analysis. This shift in scale, while recognizing plant time and the relational agency of plants, permits the identification of vegetal politics and has allowed the author to theorize plants as political actors in cities that support health.
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9

TCV, Do, and Scherer HW. "Compost as growing media component for salt-sensitive plants." Plant, Soil and Environment 59, No. 5 (April 22, 2013): 214–20. http://dx.doi.org/10.17221/804/2012-pse.

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Composting has been considerably recognized as a viable management method for solid organic wastes aimed at recycling of its end-product as a potting substrate for ornamental plants. Pelargonium and Salvia as salt-sensitive plants were grown in the mixture of compost (75, 50, 25% by volume) and additives (Hygromull, Cocofiber and SPS-standard soil type 73 with 70% peat and 30% clay). Since plants may suffer from a high salt content, thus in a further experiment compost was added as a partial substitute for peat. The results of the first pot experiment reveal that the large percentage of compost in the substrate had negative effects on plant growth and nutrient uptake (N, P, K and Na). Both yield formation and nutrient uptake significantly increased and almost gained levels of those in the control in the second pot experiment when plants were grown in peat-based substrates. Especially, the growth of Salvia was significantly improved. Consequently, the compost-based media (> 50% volume of compost) cannot be recommended for salt sensitive ornamental plants, while less than 25% of compost incorporated into peat creates peat-based substrates which reasonably enhanced growth of Pelargonium and Salvia.
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10

Dobosz, Renata, and Roman Krawczyk. "Meloidogyne hapla development on growing legume plants – Short Communication." Plant Protection Science 55, No. 4 (September 13, 2019): 273–76. http://dx.doi.org/10.17221/156/2018-pps.

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Анотація:
The legume genus lupine, pea, faba bean and common vetch were cultivated under natural conditions in pots filled with soil naturally infected with Meloidogyne hapla Chitwood, 1949. The nematode population density increased relevantly in the soil planted with the faba bean (cultivars (cvs.) Bobas, Amulet, Albus) and the pea cv. Lasso, in which numerous root galls and egg masses appeared. The narrow-leaved lupine (cvs. Karo, Zeus), yellow lupine (cvs. Parys, Lord) and white lupine (cv. Boros) cultivation decreased the nematode population density and these were not statistically significant when compared with the nematode density in a fallow soil.
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11

Özcan, M. Musa, A. Serteser, M. Kargıoğlu, V. Gök, Y. Bağci, and D. Arslan. "Antioxidant properties of some plants growing wild in Turkey." Grasas y Aceites 60, no. 2 (March 24, 2009): 147–54. http://dx.doi.org/10.3989/gya.086208.

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12

Hoad, Elizabeth. "Recounts: Plants and growing seeds." 5 to 7 Educator 2010, no. 66 (June 2010): ii—iii. http://dx.doi.org/10.12968/ftse.2010.9.6.79484.

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13

Šrámek, F., and M. Dubský. "Influence of fertilization application and growing substrate on container-grown woody ornamentals." Plant, Soil and Environment 48, No. 10 (December 22, 2011): 448–57. http://dx.doi.org/10.17221/4394-pse.

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Five fertilization systems and seven types of growing substrates were tested with two woody plant species with different nutritional demands (Thuja occidentalis, Pyracantha coccinea) grown in two-litre containers. The experiment was repeated in two vegetative seasons. Application of controlled release fertilizer (CRF) was proved the most reliable; it gave good or at least average results in dependence on used growing substrates. Significant differences between application of CRF and other fertilization systems were with Pyracantha plants. System using slow release fertilizer with additional nitrogen fertilizing also showed good results. Systems based only on liquid feeding were less reliable, with some substrates they showed very good results; with others (peat substrate, peat bark substrates with wood components) they were bad. Similar results were achieved with top dressing of granulated fertilizer. Evaluating the substrates good results were obtained by using mixtures of peat with components with higher content of nutrients – peat bark substrates, peat bark substrates with compost and non-peat mixtures of composted bark, wood fibres and compost. Significant differences between these types of substrates and peat one or peat bark substrate with wood components were both with Thuja plants and especially with Pyracantha plants, which have higher demand for nutrients. The experiments showed that peat based substrates amended with alternative components or non-peat substrates can bring better results than the peat ones.
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14

Kozyrovska, N. A., I. Ye Zaets, O. P. Burlak, I. S. Rogutskyy, O. V. Mytrokhyn, S. P. Mashkovska, and B. H. Foing. "The conception of growing first generation-plants in lunar greenhouses." Kosmìčna nauka ì tehnologìâ 16, no. 2 (March 30, 2010): 70–74. http://dx.doi.org/10.15407/knit2010.02.070.

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15

Malík, Matěj, Jiří Velechovský, and Pavel Tlustoš. "The overview of existing knowledge on medical cannabis plants growing." Plant, Soil and Environment 67, No. 8 (August 12, 2021): 425–42. http://dx.doi.org/10.17221/96/2021-pse.

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Анотація:
The use of cannabis for medicinal purposes dates back well before the era of modern medicine, but in recent years research into the use of medical cannabis in the medical and pharmaceutical sciences has grown significantly. In European countries, most cannabis plants have been and still are grown for industrial purposes. For this reason, hemp cultivation technology is relatively well researched, while little is known about the key factors affecting cannabis cultivation for medical purposes. The active substances of cannabis plant targeted by this review are called phytocannabinoids. The biosynthesis of phytocannabinoids is relatively well understood, but the specific environmental factors that influence the type and number of phytocannabinoids have been much less studied. Indoor or greenhouse cultivation, which uses automated lighting, ventilation, irrigation systems and complex plant nutrition has become much more sophisticated and appears to be the most effective method for producing medical cannabis. There are many different cultivation systems for cannabis plants, but one of the essential elements of the process is an optimal plant nutrition and selection of fertilisers to achieve it. This review summarises the existing knowledge about phytocannabinoid biosynthesis and the conditions suitable for growing plants as sources of medical cannabis. This review also attempts to delineate how nutrient type and bioavailability influences the synthesis and accumulation of specific phytocannabinoids based on contemporary knowledge of the topic.
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16

Emmel, M. "GROWING ORNAMENTAL PLANTS IN SPHAGNUM BIOMASS." Acta Horticulturae, no. 779 (January 2008): 173–78. http://dx.doi.org/10.17660/actahortic.2008.779.20.

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17

Pietruszka, Mariusz, and Aleksandra Haduch-Sendecka. "Ion Frequency Landscape in Growing Plants." PLOS ONE 10, no. 10 (October 7, 2015): e0138839. http://dx.doi.org/10.1371/journal.pone.0138839.

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18

Horoshenkov, Kirill V., Amir Khan, and Hadj Benkreira. "Acoustic properties of low growing plants." Journal of the Acoustical Society of America 133, no. 5 (May 2013): 2554–65. http://dx.doi.org/10.1121/1.4798671.

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19

Maggini, R., C. Kiferle, L. Guidi, A. Pardossi, and A. Raffaelli. "GROWING MEDICINAL PLANTS IN HYDROPONIC CULTURE." Acta Horticulturae, no. 952 (June 2012): 697–704. http://dx.doi.org/10.17660/actahortic.2012.952.88.

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20

Rizk, A. M., F. M. Hammouda, S. I. Ismail, N. M. Hassan, M. M. El-Missiry, and F. A. Ahmad. "Constituents of plants growing in Qatar." Plant Foods for Human Nutrition 40, no. 1 (January 1990): 1–3. http://dx.doi.org/10.1007/bf02193774.

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21

Galitzki, Dora, and Richard E. Bir. "Growing and Propagating Showy Native Woody Plants." Brittonia 44, no. 4 (October 1992): 498. http://dx.doi.org/10.2307/2807202.

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22

Hammond, H. David, and Richard E. Bir. "Growing and Propagating Showy Native Woody Plants." Bulletin of the Torrey Botanical Club 119, no. 4 (October 1992): 464. http://dx.doi.org/10.2307/2996735.

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23

Reinikainen, O. "CHOICE OF GROWING MEDIA FOR POT PLANTS." Acta Horticulturae, no. 342 (June 1993): 357–60. http://dx.doi.org/10.17660/actahortic.1993.342.43.

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24

Matsubara, Shizue. "Growing plants in fluctuating environments: why bother?" Journal of Experimental Botany 69, no. 20 (September 14, 2018): 4651–54. http://dx.doi.org/10.1093/jxb/ery312.

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25

Hussain, Helmi H., and Ahmed A. El-Oqlah. "Chemical Constituents of Plants Growing in Bahrain." International Journal of Pharmacognosy 35, no. 2 (January 1997): 147–49. http://dx.doi.org/10.1076/phbi.35.2.147.13281.

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26

Pietruszka, Mariusz, and Aleksandra Haduch-Sendecka. "Correction: Ion Frequency Landscape in Growing Plants." PLOS ONE 10, no. 11 (November 23, 2015): e0143787. http://dx.doi.org/10.1371/journal.pone.0143787.

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27

Do, T., S. Popov, N. Marekov, and A. Trifonov. "Iridoids from Gentianaceae Plants Growing in Bulgaria." Planta Medica 53, no. 06 (December 1987): 580. http://dx.doi.org/10.1055/s-2007-969048.

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28

Kozyrovska, N. O., T. L. Lutvynenko, O. S. Korniichuk, M. V. Kovalchuk, T. M. Voznyuk, O. Kononuchenko, I. Zaetz, et al. "Growing pioneer plants for a lunar base." Advances in Space Research 37, no. 1 (January 2006): 93–99. http://dx.doi.org/10.1016/j.asr.2005.03.005.

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29

Zaets, I., O. Burlak, I. Rogutskyy, A. Vasilenko, O. Mytrokhyn, D. Lukashov, B. Foing, and N. Kozyrovska. "Bioaugmentation in growing plants for lunar bases." Advances in Space Research 47, no. 6 (March 2011): 1071–78. http://dx.doi.org/10.1016/j.asr.2010.11.014.

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30

M, Dimova. "Potentially Beneficial Comamonas Testosteroni Bacteria for Plants Growing in HCB-Polluted Soil." Open Access Journal of Microbiology & Biotechnology 6, no. 4 (2021): 1–7. http://dx.doi.org/10.23880/oajmb-16000208.

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Анотація:
The bioaugmantation effect of bacterial strains on plant development in organochlorine pesticides (OCP) polluted soil has been in the focus of attention, however there is little information about Comamonas testosteroni strains influence. The investigation was performed by classic methods. The results of the research showed that Comamonas testosteroni UCM B-400 and B-401has a high destroying potential to xenobiotics in the soil, and also has a positive effect on plant development. The tomato plants ability to develop under conditions with Comamonas testosteroni UCM B-400 and B-401 bioaugmentation in HCB - contaminated and uncontaminated soil were studied. Comamonas testosteroni UCM B-400 and B-401 promoted the increasing of photosynthetic activity, biometric parametrs and increase the resistance to phytopathogens, such as Clavibacter michiganensis subs. michiganensis UCM Ас-629 (up to 36%) and Alternaria alternata UCM F-16866 (up to 32%). Comamonas testosteroni UCM B-400 and B-401 can be used as an inoculant to improve plant development conditions in HCB load soils.
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31

Valdayskih, Viktor, Elena Artem'eva, Mihail Karpuhin, and R. Mihalischev. "The comparative yield of large-herb plants when growing in the Middle Urals." Agrarian Bulletin of the 214, no. 11 (December 16, 2021): 2–7. http://dx.doi.org/10.32417/1997-4868-2021-214-11-2-7.

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Abstract. The purpose of the research is to isolate species of annual and perennial herbaceous plants that are promising for the tasks of accelerating the sequestration of atmospheric carbon, resistant to local soil and climatic conditions and having high productivity from the collection fund of the botanical garden of the Ural Federal University. Methods. The article presents data on the productivity of four types of herbaceous plants: Amaranthus caudatus L., Amaranthus cruentus L., Polygonum weyrichii F. Schmidt and Echinops sphaerocephalus L., grown in the botanical garden. All the research objects were grown under the same conditions. Productivity was measured at the beginning of September. The data were processed using standard statistical methods. Results. It was revealed that the plants P. weyrichii is the most productive in terms of both fresh and dry yield. The yield of the P. weyrichii increases in years with sufficiently high moisture content. Aridity and high summer temperatures have a negative impact on the growth of the P. weyrichii. Amaranths gain a large aboveground mass due to their belonging to the group with the C4 type of photosynthesis. High summer temperatures have a positive effect on the growth and development of amaranths, while correlations with the amount of precipitation are statistically insignificant. The plants E. sphaerocephalus showed average values for productivity and requires further study. It is recommended to grow the plants P. weyrichii in a sufficiently humid area. Amaranth, being a drought-resistant plant, is highly productive in any years, especially in years with the value of the hydrothermal coefficient (HTC) less than 1.0. The scientific novelty lies in the fact that the features of the cultivation of the studied crops are considered not only for forage purposes but also from the point of view of atmospheric carbon deposition and cultivation on potential carbon farms in the changing climate of the region.
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32

Trifilò, Patrizia, Maria Assunta Lo Gullo, Fabio Raimondo, Sebastiano Salleo, and Andrea Nardini. "Effects of NaCl addition to the growing medium on plant hydraulics and water relations of tomato." Functional Plant Biology 40, no. 5 (2013): 459. http://dx.doi.org/10.1071/fp12287.

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This work reports on experimental evidence for the role of ion-mediated changes of xylem hydraulic conductivity in the functional response of Solanum lycopersicum L. cv. Naomi to moderate salinity levels. Measurements were performed in fully developed 12-week-old plants grown in half-strength Hoagland solution (control, C-plants) or in the same solution added with 35 mM NaCl (NaCl-plants). NaCl-plants produced a significantly less but heavier leaves and fruits but had similar gas-exchange rates as control plants. Moreover, NaCl-plants showed higher vessel multiple fraction (FVM) than control plants. Xylem sap potassium and sodium concentrations were significantly higher in NaCl-plants than in control plants. When stems were perfused with 10 mM NaCl or KCl, the hydraulic conductance of NaCl plants was nearly 1.5 times higher than in control plants. Accordingly, stem hydraulic conductance measured in planta was higher in NaCl- than in control plants. Our data suggest that tomato plants grown under moderate salinity upregulate xylem sap [Na+] and [K+], as well as sensitivity of xylem hydraulics to sap ionic content, thus, increasing water transport capacity.
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33

Michael, Abegunde Segun. "Inhibitory Effect of Lime on Arsenic-Induced Lipid Peroxidation in Growing Rice Plants." Journal of Advanced Research in Medical Science & Technology 05, no. 01 (March 31, 2018): 1–5. http://dx.doi.org/10.24321/2394.6539.201801.

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34

Chao, Sophie. "Children of the palms: growing plants and growing people in a Papuan Plantationocene." Journal of the Royal Anthropological Institute 27, no. 2 (March 31, 2021): 245–64. http://dx.doi.org/10.1111/1467-9655.13489.

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35

Maximenko, L. A., N. I. Parkhomenko, E. G. Zhook, and L. F. Didenko. "Virus discovery in Panax plants growing in Ukraine." Biopolymers and Cell 14, no. 5 (September 20, 1998): 467–71. http://dx.doi.org/10.7124/bc.0004ee.

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36

Ahmed, A. K., and K. A. Johnson. "GROWING AUSTRALIAN NATIVE EDIBLE PLANTS USING HYDROPONIC TECHNIQUES." Acta Horticulturae, no. 511 (January 2000): 225–32. http://dx.doi.org/10.17660/actahortic.2000.511.25.

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37

Dubský, M., and F. Srámek. "SUBSTRATES WITH MINERAL COMPONENTS FOR GROWING WOODY PLANTS." Acta Horticulturae, no. 819 (March 2009): 243–48. http://dx.doi.org/10.17660/actahortic.2009.819.27.

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38

Gohil, Preeti. "Role of Growing Media for Ornamental Pot Plants." International Journal of Pure & Applied Bioscience 6, no. 1 (February 28, 2018): 1219–24. http://dx.doi.org/10.18782/2320-7051.6218.

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39

Sener, Bilge, Ningur Nayonalpan, Nevin Tanker, Mehmet Koyuncu, John R. Lewis, and Alev Mutlugil. "Pharmacognosic Researches on Rutaceae Plants Growing in Turkey." International Journal of Crude Drug Research 25, no. 2 (January 1987): 87–88. http://dx.doi.org/10.3109/13880208709088132.

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40

Ermacora, Davide. "Plants Growing in and on Bodies in Folklore." Boletín de Literatura Oral 10 (July 15, 2020): 109–38. http://dx.doi.org/10.17561/blo.v10.5166.

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Анотація:
The aim of this paper is to provide evidence for three themes related to ‘botanical bosom serpents’, i.e. stories about plants growing in and on bodies. First, the sprouting of flowers from the body in medieval Christian tales, to be contrasted to ‘bottom flowers’ attested in Dutch profane paintings produced in the later Middle-Ages; second, the presence of botanical bosom serpent narratives in Japan; and, third, the topic of plants growing in, and on animals in oral traditions and works of natural history.
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41

Lütz, Cornelius. "Cell physiology of plants growing in cold environments." Protoplasma 244, no. 1-4 (June 3, 2010): 53–73. http://dx.doi.org/10.1007/s00709-010-0161-5.

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42

Zvedenyuk, A. P., and V. I. Kazaku. "WHITE HEAD CABBAGE SEEDS GROWING FROM ROSETTE PLANTS." Vegetable crops of Russia, no. 3 (January 1, 2013): 40–42. http://dx.doi.org/10.18619/2072-9146-2013-3-40-42.

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43

Socias, FX, and H. Medrano. "Drought acclimation in field growing subterranean clover plants." Agronomie 14, no. 2 (1994): 141–48. http://dx.doi.org/10.1051/agro:19940210.

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44

WILSON, A. E. "APPARATUS FOR GROWING PLANTS UNDER CONTROLLED ENVIRONMENTAL CONDITIONS." Annals of Applied Biology 24, no. 4 (February 26, 2008): 911–31. http://dx.doi.org/10.1111/j.1744-7348.1937.tb05063.x.

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45

Howard, John A., and Elizabeth E. Hood. "Methods for Growing Nonfood Products in Transgenic Plants." Crop Science 47, no. 3 (May 2007): 1255–62. http://dx.doi.org/10.2135/cropsci2006.09.0594.

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46

Козлов, Николай, Nikolay Kozlov, Николай Малюженец, Nikolay Malyuzhenets, Валентина Коровина, Valentina Korovina, Тамара Комкова, et al. "WILD-GROWING FORAGE PLANTS OF THE TVER REGION." Adaptive Fodder Production 2019, no. 3 (September 5, 2019): 19–29. http://dx.doi.org/10.33814/afp-2222-5366-2019-3-19-29.

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With the aim of exploring and mobilize genetic resources of forage plants of the Central non-Chernozem region from 01 to 10 August 2017, an expedition survey of wild genetic resources and collection of promising forms in the Tver region was conducted. The route of the expedition passed through Staritsa, Rzhev, Ostashkov, Torzhok, Vyshnevolotsk, Bezhetsk, Kesovogorsk and Kalyazin area. The length of the route was 1.8 thousand kilometers, covering the main ecological and geographical diversity of the Tver region. When examining and collecting the most promising forms of wild food plants of the Tver region have used the qualifiers "Cereals of the USSR" (Tsvelev N.N.), "Herbaceous plants of the USSR": in 2 volumes (editorship T.A. Rabotnov). Field and laboratory about the inspections were conducted in accordance with "Federal instructions for conducting geobotanical survey of the natural pastures and the compilation of large-scale geobotanical maps" (1984). Coordinates of the survey sites and collection of promising forms of forage plants were determined using the Tablet-Navigator "ASUS" and software "Navitel". The richest species diversity of forage plants was found in phytocenoses of floodplain meadows of the Volga river, deposits and lakes of the Tver region watershed. Collected 140 samples of aboriginal food plants of the representatives of the families Gramineae (22 species) and Fabaceae (14 species), promising to replenish the regional collections and the creation of environmentally sustainable varieties of crops. Special interest in Cereals has cocksfoot and fescue, the dominant in most plant communities of the floodplains and reservoirs. Most forms of these species have brown color of stems, leaves and inflorescences, as a reaction of species to recurrent spring frosts.
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