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Zeitschriftenartikel zum Thema „Hippophae L“

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Veröffentlicht am 18. Mai 2024

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1

Vernet, A. „L’argousier (Hippophae rhamnoides L.)“. Phytothérapie 4, Nr. 3 (August 2006): 125–29. http://dx.doi.org/10.1007/s10298-006-0167-5.

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2

Arastun Sadigov, Kamala. „Growth and development of Hippophae rhamnoides L. introduced in Absheron“. NATURE AND SCIENCE 02, Nr. 03 (08.05.2020): 35–38. http://dx.doi.org/10.36719/2707-1146/03/35-38.

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The presented article provides seed propagation, seedling morphology and growth dynamics, root system development in connection with the introduction of Hippophae rhamnoides L. species found in our natural flora in Absheron. The study found that the species Hippophae rhamnoides L. is well adapted to the soil and climatic conditions of Absheron and can be grown in cultural conditions. Key words: Hippophae rhamnoides L., introdiction, seed, repoduction, morphology, dewelopment, root system
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3

He, Nengxin, Qinyuan Wang, Huilian Huang, Jie Chen, Guang Wu, Meining Zhu, Feng Shao et al. „A Comprehensive Review on Extraction, Structure, Detection, Bioactivity, and Metabolism of Flavonoids from Sea Buckthorn (Hippophae rhamnoides L.)“. Journal of Food Biochemistry 2023 (14.03.2023): 1–27. http://dx.doi.org/10.1155/2023/4839124.

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Sea buckthorn (Hippophae rhamnoides L.) is an important plant with homology of medicine and food. It has rich nutritional and medicinal properties. It is used as a traditional Chinese medicine with therapeutic functions of invigorating spleen, relieving cough, eliminating food, eliminating phlegm, dispersing blood stasis, and promoting blood circulation. This review comprehensively summarized flavonoids from sea buckthorn (Hippophae rhamnoides L.), including extraction methods (solvent extraction, ultrasound-assisted extraction, microwave-assisted extraction, enzyme-assisted extraction, and collaborative extraction), two structure types (18 flavone aglycones and 81 flavone glycosides), detection methods (UV, HPLC, and NMR), bioactivities (antiviral, anti-inflammatory, hepatoprotective, weight-reducing, and hypoglycemic activities), and physiological metabolisms (most of flavonoids are converted into small molecule monophenolic acids through intestinal microbial catabolism). It will supply an important theoretical basis and valuable reference for researching and exploiting sea buckthorn (Hippophae rhamnoides L.) in the future. Practical Applications. Sea buckthorn (Hippophae rhamnoides L.) is an edible and medical plant with many functional properties. A comprehensive review on extraction, structure, detection, bioactivity, and metabolism of flavonoids from sea buckthorn (Hippophae rhamnoides L.) was made in this paper. This review will provide an important foundation for further studies of sea buckthorn (Hippophae rhamnoides L.) focusing on its development and utilization.
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Moskalets, V. V., T. Z. Moskalets, I. V. Grynyk, I. V. Shevchuk, V. M. Pelekhatyi, N. P. Pelekhata und O. B. Оvezmyradova. „Methods of the sea buckthorn (Hippophae rhamnoides L.) plants evaluations concerning the pathogens resistance in the breeding on the adaptability“. Horticulture: Interdepartment Subject Scientific Collection, Nr. 76 (2021): 178–95. http://dx.doi.org/10.35205/0558-1125-2021-76-178-195.

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The methods of the common sea buckthorn plants evaluation concerning their to diseases causative agents resistance in the agrocoenoses of the Institute of Horticulture of the National Academy of Agrarian Sciences of Ukraine and its network were elaborated on the basis of generalizing the phytopathological researches methodology as well as those methods importance in the breeding on the adaptability substantiated. The bioecological peculiarities and morphological symptoms of the pathogens appearance, namely: Verticillium albo-atrum Reinke & Berthold, Verticillium dahliae Klebahn, Fusarium camptoceras, Wollenw. & Reinking, Fusarium solani (Martius) Saccardo, Fusarium acuminatum, Wollenw., Fusarium oxysporum Schlechtendal та F. sporotrichioides Sherb., Monilia altaica А. Zukov., Stigmina hippophaes А. Zukov, Monochaetia ampelophila Auktorsnamn (Speg.), T.R. Nag Raj, Fomitiporia hippophaeicola (H. Jahn) Fiasson & Niemelä, Phoma elaeagnella Cooke, Coryneum elaeagni, Sphaeropsis malorum М.J. Berkeley, Nectria cinnabarina (Tode) E.M. Fries, Coniothecium epidermidis Corda, Alternaria tenuis Nees, Cytospora hippophaes Thüm. and others were described and the measures of their control considered as well as the ways assessing the investigated crop plants resistance against the diseases caused by the above mentioned causative agents. Besides, the methods were developed of the explored crop plants estimating as regards the basic fungal diseases resistance as well as the effective ways of the control of the main pathogens of the bacterial and fungal diseases. The evaluation of the plant damage by pathogens must be carried out in the orchards of different age. For example, the degree of the Hippophae rhamnoides L. resistance to fusarium wilt in the orchards needs be assessed within 5-6 years after planting. In the common sea buckthorn mother gardens on the older branches, it is necessary to control the causative agent Fomitiporia hippophaeicola. Its spread occurs in case of the branches injury when a plant management or harvesting or under the influence of the unfavourable abiotic factors. The studied crop phomosis seedlings is caused by the fungus Phoma elaeagnella, the display manifestation of which is also observed on the woody or soft cuttings in the nursery or film covers. Root necrosis brought by the fungus Coryneum elaeagni can be often fixed on the planting stock in the plants root. Alternaria the of plants Hippophae rhamnoides L., the causative agent of which is an tinber fungus Alternaria tenuis can be indicated by the drying in the branches of the lower story. When young twigs are affected by the fungus Plowrightia hippophaes (Dothidea hippophaes Fuckel, 1868), the causative agent of the ulcerative necrosis of the bark are numerous necrotic areas that cause rapid plant death. The infection stays in the affected plants wood, so it must be disposed from the plants. The researcher crop plants affected by the pathogen Pseudomonas syringae pv. hippophaeis decelerate the growth processes. In the breeding process attention should be paid to other causative agents of the studied crop, in particular, the species Phomopsis elaeagnicola, which causes the disease phomopsis, blight, that is "dead hand". Cytospora hippophaes, which is the sea buckthorn cytosporosis pathogen, has a significant parasitic effect, colonizing both living and dead branches that are not resistant to changing winter conditions, as well as early spring frosts when the appropriate agrotechnics is absent. The uncontrolled development of the hyphal fungus Coniothecium epidermidis brings about the fruitful branches drying, the fruit skin covering spherically with a black dense powdery layer. Besides, with the absence of the appropriate control the soil parasitic fungi Rhizoctonia solani, Pythium mycoparasiticum, Phytophthora irrigata cause the significant plants losses (up to 30 %). Therefore, in the Hippophae rhamnoides L. breeding on adaptability use the quality planting stock should be pruning, collection and burning of all the affected dry branches, must be carried out as well as the disinfection of cuts and mechanical damage with the 1 % solution of the copper sulfate and puttying them with the oil paint. It should be noted that the alternative to chemicals in the phytopathogenic bacteria control can be biological means on the basis of antagonistical bacteria, including the genera Bacillus and Streptomyces. One of the priority strategies for the fungal and bacterial diseases control is growing resistant cultivars.
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Skaptsov, M. V., S. V. Smirnov und M. G. Kutsev. „PREPARATION OF PROTOPLASTS OF SEA BUCKTHORN ( HIPPOPHAE RHAMNOIDES L.)“. Turczaninowia 16, Nr. 3 (2013): 152–56. http://dx.doi.org/10.14258/turczaninowia.16.3.20.

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6

Sankhyan, H., Sanjeev Thakur und S. S. Sharma. „Identification of Discriminating Morphological Descriptors for Characterization of Seabuckthorn (Hippophae rhamnoides L.) Germplasm in Himachal Pradesh“. Journal of Non Timber Forest Products 25, Nr. 1 (01.03.2018): 51–55. http://dx.doi.org/10.54207/bsmps2000-2018-emw76u.

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Identification of discriminating morphological descriptors for characterization of Seabuckthorn (Hippophae rhamnoides L.) germplasm in Himachal Pradesh was undertaken in ten different major gene pool areas of Seabuckthorn in Spiti Valley, where 80 per cent population is of Hippophae rhamnoides L. Twenty plants of each gene pool area were selected during the end of growing season. Plant shoot, leaf blade, pubescence and fruit characteristics were recorded. Twenty two morphological traits were recorded for vegetative and reproductive descriptors, which is comprised of Qualitative and Quantitative characteristics. Study concluded with preparation of DUS (Distinctiveness, Uniformity and Stability) guidelines for developing a new species/sub species or variety or new clone which will help in further breeding and genetic improvement programme. The present study identifies the morphological descriptors that are most relevant for characterization of Seabuckthorn (Hippophae rhamnoides L.) in cold desert eco-system of Himachal Pradesh.
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7

Yao, Yingmou. „Micropropagation of sea buckthorn (Hippophae rhamnoides L.)“. Agricultural and Food Science 4, Nr. 5-6 (01.12.1995): 503–12. http://dx.doi.org/10.23986/afsci.72626.

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A protocol for micropropagation of sea buckthorn was developed starting with shoot tips or meristems from plants up to 18 years old. Among the different media used, the best medium for both initiation and multiplication was the woody plant medium (WPM). 6-Benzylaminopurine (BAP) was the most suitable growth regulator with an optimal concentration of 0.10-0.25 mg/l for initiation and 0.4-1.0 mg/l for multiplication. On WPM medium with BAP, the average rate of multiplication in Erlenmeyer flasks was 3.3-4.0 shoots per explant per month and in test tubes 2.0-3.0 shoots. Moreover, most explants produced several to tens of adventitious buds which grew into shoots. Explants rooted spontaneously in the multiplication medium at a frequency of about 33%. With this method, explants of different origins have been successfully propagated in vitro; and rooted young plants which had developed root nodules were produced both in the greenhouse and in the field.
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8

Ilango, K., N. Kasthuri Bai, R. Mohan Kumar, K. Ananth Kumar, G. P. Dubey und Aruna Agrawal. „Pharmacognostic Studies on the Leaves of Hippophae rhamnoides L. and Hippophae salicifolia D. Don“. Research Journal of Medicinal Plant 7, Nr. 1 (01.01.2013): 58–67. http://dx.doi.org/10.3923/rjmp.2013.58.67.

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9

Zubik, Inna, Tatiana Aniskina, Maxim Simakhin, Viktoria Kryuchkova und Vitaly Donskikh. „Coefficients of originality of Hippophae rhamnoides L. by phenological dates.“ АгроЭкоИнфо 5, Nr. 47 (19.10.2021): 15. http://dx.doi.org/10.51419/20215515.

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Sea buckthorn is often perceived and used precisely as a fruit crop, but it also has decorative qualities. When choosing varieties for gardening, it is important to know the phenological dates of the onset of decorative phases, but literary sources often indicate only one phenophase - the period of fruit ripening. The purpose of this work is to analyze 18 varieties of sea buckthorn of the average ripening period according to the degree of originality of the onset of a number of phenophases. Female sea buckthorn plants are in the collection of the Main Botanical Garden. N.V. Tsitsina (Moscow, Russia). Annually from 2014 to 2019, 16 phenodates were noted (swelling and blooming of buds, appearance and blooming of leaves, complete leafing, yellowing of leaves, leaf fall, beginning of budding, mass budding, beginning of flowering, mass and end of flowering, fruit setting, single ripening, mass ripening , fruit fall). Originality coefficients were calculated by a statistical method for assessing the modality weight. It was found that among the varieties of the average ripening period, the Chuiskaya and Gus-Khrustalnaya varieties have a high degree of originality of the complex of phenological dates, and the overwhelming majority of varieties are the most typical in the sample. Keywords: HIPPOPHAE RHAMNOIDES L., ORNAMENTAL PLANTS, ORIGINALITY, VARIETY, SEA BUCKTHORN, PHENODATES, PHENOLOGY
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10

Zhang, Jiachan, Changtao Wang, Chengtao Wang, Baoguo Sun und Cai Qi. „Understanding the role of extracts from sea buckthorn seed residues in anti-melanogenesis properties on B16F10 melanoma cells“. Food & Function 9, Nr. 10 (2018): 5402–16. http://dx.doi.org/10.1039/c8fo01427b.

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11

Li, Thomas S. C., und W. R. Schroeder. „Sea Buckthorn (Hippophae rhamnoides L.): A Multipurpose Plant“. HortTechnology 6, Nr. 4 (Oktober 1996): 370–80. http://dx.doi.org/10.21273/horttech.6.4.370.

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Sea buckthorn (Hippophae rhamnoides L.) is a multipurpose, hardy, deciduous shrub, an ideal plant for soil erosion control, land reclamation, wildlife habitat enhancement, and farmstead protection. It has high nutritional and medicinal values for humans. The majority of sea buckthorn research has been conducted in Asia and Europe. It is a promising new crop for North America, and recently it has attracted considerable attention by researchers, producers, and industry.
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Rammal, H., C. Younos, J. Bouayed, F. Desor, A. Chakou, T. Derouich und R. Soulimani. „Notes ethnobotanique et phytopharmacologique sur Hippophae rhamnoides L.“ Phytothérapie 6, Nr. 2 (April 2008): 115–16. http://dx.doi.org/10.1007/s10298-008-0295-1.

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13

Zhang, Wei, Xiaohui Zhang, Kai Zou, Jiming Xie, Shimin Zhao, Jingran Liu, Huan Liu, Jinling Wang und Yuzhen Wang. „Seabuckthorn berry polysaccharide protects against carbon tetrachloride-induced hepatotoxicity in mice via anti-oxidative and anti-inflammatory activities“. Food & Function 8, Nr. 9 (2017): 3130–38. http://dx.doi.org/10.1039/c7fo00399d.

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14

КОЖЕВНИКОВ, А. П., und С. Ю. ИСАКОВ. „PECULIARITIES OF SEA BUCKTHORN NATURALIZATION (HIPPOPHAE RHAMNOIDES L.) IN THE URALS“. Леса России и хозяйство в них, Nr. 3(74) (02.01.2021): 36–43. http://dx.doi.org/10.51318/fret.2021.74.3.004.

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Успешная интродукция древесных растений сопровождается их натурализацией – внедрением видов инорайонного происхождения в природные фитоценозы. Примером натурализации древесных интроду- центов на Урале может быть образование популяций Hippophae rhamnoides L. на берегах озера Чебаркуль Челябинской области и в зольных отвалах Рефтинской ГРЭС Свердловской области. Высокая изменчивость однотипных признаков определяет приспособленность вида к меняющимся условиям среды и указывает на ослабление жесткости генотипического контроля, слабую стабилизацию фенотипа и увеличение роли внешних факторов в формировании фенотипического признака.Цель исследований – установление изменчивости плодов и листьев облепихи крушиновидной при на- турализации ценопопуляций облепихи на Южном и Среднем Урале в начале экспансии в 1999 г. и через 20 лет. Методикой работы предусмотрены маршрутное обследование интродукционных популяций облепихи на берегах озера Чебаркуль, золоотвалах Рефтинской ГРЭС и определение уровня изменчивости плодов и листьев форм, образованных при спонтанной гибридизации с начала натурализации облепихи и в на- стоящее время. Уровень изменчивости морфологических признаков оценивался по эмпирической шкале уровней изменчивости С. А. Мамаева. В чебаркульской и рефтинской популяциях преобладают плоды облепихи с овальной, шаровидной и конусовидной формой с желтой, светло-оранжевой, оранжевой, красно-оранжевой окраской. По массе 100 шт. плодов наибольшее хозяйственное значение имеют формы чебаркульской популяции, отобранные в начале расселения облепихи на берегах обмелевшего озера Чебаркуль. Посевом семян от свободного опыления нами получен ряд перспективных форм с массой 100 шт. плодов от 40,9 до 70,2 г. Некоторые чебаркульские формы облепихи не уступают по данному признаку сортам этой культуры. Отбор крупноплодных форм облепихи стал возможен в начале плодоношения чебаркульской облепихи. Натурализация данной культуры происходит за счет микроэволюционных процессов в интродукционных популяциях и формообразования за пределами естественного ареала. The successful introduction of woody plants is accompanied by their naturalization – the introduction of species of foreign origin into natural phytocenoses. The population’s formation of Hippophae rhamnoides L. on the shores of Lake Chebarkul in the Chelyabinsk region and ash dumps of the Reftinskaya SDPP in the Sverdlovsk region can be an example of the naturalization of tree introduced species in the Urals.The high variability of the same type of traits determines the species adaptability to changing environmental conditions and indicates a weakening of the genotypic control rigidity, weak stabilization of the phenotype and an increase in the external factors’ role in the formation of the phenotypic trait.The purpose of the research is to establish the variability of fruits and leaves of sea buckthorn during naturalization of sea buckthorn cenopopulations in the South and Middle Urals at the beginning of expansion in 1999 and 20 years later.The methodology of the work provides for a route survey of the introduction populations of sea buckthorn on the shores of Lake Chebarkul, ash dumps of Reftinskaya SDPP and determination of the level of variability of fruits and leaves of forms formed during spontaneous hybridization from the beginning of naturalization of sea buckthorn and at present time. The level of morphological traits’ variability was assessed using an empirical scale of levels of variability by S.A. Mamaev. In the Chebarkul and Reftinskaya populations sea buckthorn fruits with an oval, spherical and conical shape, with a yellow, light orange, orange, red-orange color prevail. By the mass of 100 pieces of fruits, the forms of the Chebarkul population, selected at the beginning of the resettlement of sea buckthorn on the shores of the shallow lake Chebarkul, are of the greatest economic importance. By sowing seeds from free pollination, we obtained a number of perspective forms with a mass of 100 fruits from 40.9 g to 70.2 g. Some Chebarkul forms of sea buckthorn are not inferior to the varieties of this crop in this respect. Selection of large-fruited forms of sea buckthorn became possible at the beginning of fruiting of the Chebarkul sea buckthorn. Naturalization of this culture occurs due to microevolutionary processes in introduction populations and morphogenesis outside the natural area.
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Zenkova, Maria, und Julia Pinchykova. „Chemical composition of sea-buckthorn and highbush blueberry fruits grown in the Republic of Belarus“. Food Science and Applied Biotechnology 2, Nr. 2 (10.10.2019): 121. http://dx.doi.org/10.30721/fsab2019.v2.i2.59.

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Chemical composition of sea-buckthorn and highbush blueberry fruits determines their value while using them fresh or processed. Berries have distinctive characteristics depending on a variety, soil and climatic conditions and growing techniques. The object of the researches have been Sea-buckthorn (Hippophae L.) of three varieties (Podarok sadu, Trofimovskaya, Botanicheskaya) and Highbush Blueberry (Vaccinium corymbosum L.) of five varieties (Duke, Bluetta, Bluecrop, Northland, Coville) grown in the Republic of Belarus. Sea-buckthorn and Highbush Blueberry fruits chemical composition has been studied during a three-year cycle of monitoring using standard methods and in accordance with technical legal acts of the Republic of Belarus. Solid content (13,0-15,3%), sugar content (4,00-4,80%), organic acids (1,10-2,05%), nitrogen substances content (0,29-0,46%), lipids (3,6-6,2%), pectin content (0,40-0,50%), fiber (3,20-4,90%), minerals, vitamin С (44,7-78,7 мг/100г), β-carotene (4,4-13,2 мг/100г) have been studied in Sea-buckthorn (Hippophae L.). Solid content (12,2-15,1%), sugar content (2,73-3,96%), organic acids (0,59-0,95%), pectin content (0,57-0,97%), fiber (1,20-1,68%), bioflavonoids (276-368 мг/100 г), bioflavonoids complex fractional composition (anthocyanins, leucoanthocyanins, catechines, flavonols), vitamin С (60,5-72,2 мг/100 г) and mineral content have been studied in Highbush Blueberry (Vaccinium corymbosum L.). Exogenous contaminants content (arsenic, heavy metals), hygienical safety indexes, caesium 137 radionuclides content have been investigated in the fruits. Specific varieties characterictics of Sea-buckthorn (Hippophae L.) and Highbush Blueberry (Vaccinium corymbosum L.) fruit chemical composition have been determined. The studied fruit is fully safe and can be recommended to be used both fresh and processed.
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Masyuk, O. M. „Анализ надземной продуктивности быстрорастущих древесных насаждений, культивируемых на черноземах обыкновенных“. Biosystems Diversity 15, Nr. 1 (04.02.2007): 95–101. http://dx.doi.org/10.15421/010718.

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Проаналізовано характер розміщення фітомаси у вертикальному просторі деревостанів швидкорослих деревних порід, культивованих на чорноземі звичайному. Встановлено, що надземна продуктивність Populus nigra L. склала 323 т/га, Robinia pseudoacacia L. – 164 т/га, Hippophae rhamnoides L. – 98,5 т/га. Розподіл фітомаси залежав від біологічних особливостей кожної культури та умов її зростання.
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Бедарева, О. М., В. Г. Сильвандер, Любовь Семёновна Мурачёва und А. В. Матюха. „Сохранение и рациональное использование популяций облепихи крушиновой (Hippophae rhamnoides L.) в Калининградской области“. Аграрная Россия, Nr. 2 (26.02.2014): 39–41. http://dx.doi.org/10.30906/1999-5636-2014-2-39-41.

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В статье рассмотрены наиболее крупные площади популяций облепихи (Hippophae rhamnoides L.) на территории районов Калининградской области. Отмечена уникальность облепиховых фитоценозов для региона. Рекомендованы природоохранные мероприятия, направленные на сохранение вида.
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DENİZHAN, EVSEL, ROSİTA MONFREDA, ENRİCO DE LİLLO und SULTAN ÇOBANOGLU. „Two new species of eriophyoid mites (Acari: Eriophyoidea) associated with Elaeagnaceae in Turkey“. Zootaxa 1698, Nr. 1 (05.02.2008): 41. http://dx.doi.org/10.11646/zootaxa.1698.1.2.

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Turkish populations of eriophyid mites infesting Elaeagnaceae were examined. Two new species are described and illustrated: Anthocoptes cellatus n. sp. was collected on Hippophae rhamnoides L. (seaberry), and Aceria angustifoliae n. sp. was found on Elaeagnus angustifolia L. (Russian olive). A remark on mite mounting was made.
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Abbas, Qamar, Shahina Batool, Sher Wali Khan, Azhar Hussain, Saif Ud Din, Maisoor Ahmed Nafees, Shamsher Ali, Muhmmad Ali Faizi und Asad Ullah. „Antimicrobial Study of Selected Medicinal Plants (Datura stramonium L. and Hippophae rhamnoides L.) of Hunza Valley, Gilgit-Baltistan“. Biological Sciences - PJSIR 64, Nr. 3 (04.10.2021): 251–55. http://dx.doi.org/10.52763/pjsir.biol.sci.64.3.2021.251.255.

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The adverse environmental and human health impact of chemical use against micro-organism is profoundly increased. For this motive, substitute methods to minimize chemicals are being developed. One of the effective methods is use plant extracts which having natural antimicrobial properties. The aim of this study was to evaluate ethanolic extract of Datura stramonium L. (leaves) and Hippophae rhamnoides (fruits) against the selected micro-organisms. Results revealed that mean zone of inhibition for bacterial species ranged from 23±0.72 to 27±1.24 mm in case of Hippophae rhamnoides and from 21±0.79 to 30±1.06 mm in case of D. stramonium leaves respectively. For antifungal activity, the inhibition zone ranges from 39.42±1.07 to 47.22±2.11 mm in case of D. stramonium and from 38.42±1.19 to 48.46±2.32 mm in case of H. rhamnoides. However, sensitivity reaction of bacterial and fungal species against each plant extract was also differential. D. stramonium showed highest toxic effect against E. coli (30±1.06 mm)) and Aspergillus flavus (47.22±2.11mm). Whereas, H. rahmnoides showed highest zone of inhibition against bacterial species (B. subtilis 27±1.24 mm) and fungal species (R. stolonifer 48.46±2.32 mm). Both plant extract exhibited antimicrobial properties, which could be used against micro-organisms.
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Ковалева, Н. А., und О. В. Тринеева. „ИССЛЕДОВАНИЕ ЭЛЕМЕНТНОГО СОСТАВА ОБЛЕПИХИ КРУШИНОВИДНОЙ (HIPPOPHAE RHAMNOIDES L.) ЛИСТЬЕВ“. Trace Elements in Medicine (Moscow) 23, Nr. 3 (September 2022): 45–58. http://dx.doi.org/10.19112/2413-6174-2022-23-3-45-58.

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Вещества минерального происхождения не только оказывают общее суммарное лечебно-профи-лактическое действие на организм человека совместно с комплексом биологически активных веществ (БАВ) лекарственных растений, но и влияют на накопление целевых групп БАВ в лекарственном растительном сырье (ЛРС). Перспективным сырьем для облепихи являются не только плоды, но и другие части растения (листья, побеги, кора). Листья мало изучены в отношении химического, в том числе элементного, состава и остаются побочным продуктом при заготовке плодов, что не отвечает современным подходам к рациональному использованию природных ресурсов. Цель исследования – изучение состава и способности к накоплению различных химических элементов в листьях облепихи крушиновидной. Материалы и методы. Объект исследования – листья облепихи крушиновидной, собранные от дикорастущих растений в Воронежской области (Острогожский район) в периоды различных фенологических фаз жизни растения в 2021 г., а также образцы почвы с места произрастания. Золу общую и нерастворимую в 10% соляной кислоте определяли по соответствующим методикам общих фармакопейных статей Государственной фармакопеи РФ XIV издания. Состав элементов в образцах изучали методом хромато-масс-спектрометрии с индуктивно-связанной плазмой. Результаты и выводы. Для оценки полного элементного состава исследуемых образцов ЛРС выбрана фенофаза растения, которая показала наибольшее содержание золы, нерастворимой в HCl. Определено содержание 60 химических элементов, в том числе 13 эссенциальных. Установлено, что фосфор относится к высокоаккумулируемым элементам, натрий – к элементам среднего захвата, молибден, калий, кальций, мышьяк и свинец – к группе слабого накопления и среднего захвата. Остальные найденные минеральные компоненты относятся к группе слабого накопления и очень слабого захвата. Элементов энергичного накопления не обнаружено. В исследуемых образцах отмечено высокое содержание калия, кальция, магния, кремния, алюминия, железа и фосфора. Около 96 % элементов, накапливающихся в листьях, составляют макроэлементы. Содержание токсичных тяжелых металлов в лекарственном сырье не превышает допустимых норм. Содержание мышьяка несколько превышает установленные общие нормы для ЛРС. В листьях установлено превышение предельно допустимых концентраций (установленных для овощей и трав) железа, цинка, кобальта и хрома, что может свидетельствовать о способности листьев облепихи аккумулировать эти элементы из почвы. Содержание этих же элементов в почве места заготовки ЛРС также превышает допустимые нормы. Таким образом, заготовку данного ЛРС следует рекомендовать от культивируемых растений в экологически благоприятных районах.
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Lobacheva, I., und W. Letchamo. „On the Standardization of Seabuckthorn (Hippophae rhamnoides L) Oil“. HortScience 33, Nr. 3 (Juni 1998): 482a—482. http://dx.doi.org/10.21273/hortsci.33.3.482a.

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Seabuckthorn (Hippophae rhamnoides, L) (Oblepiha, Siberian pineapple, Sandorn, Sha-ji), a perennial from the Eleagnaceae family, has attracted the interest of North American natural products industry because of its effective multiple applications in cosmetic, nutriceutical, and veterinary industries. The oil obtained from the berries, bark, and leaves, and is known to contain carotenoids, vitamins, and essential fatty acids. The objective of this investigation was to elaborate and establish reliable, but inexpensive, methods in the process of standardization of the quality of oblepiha oil. Data of the phytochemical analysis of oblepiha oil obtained from various research reports and industrial and experimental sources, located in different parts of Russia (ex-USSR), were extensively investigated and statistically evaluated. An indirect method of standardization of oblepiha oil, based on the content of carotenoids and unsaponifiable fraction of the oil, has been proposed. The correlation between total carotenoids and unsaponifiable lipids in extracted oil of oblepiha (r = 0.76; P ≤ 0.05) has been shown. The strong relationship between carotenoids, unsaponifiable lipids, and sterin fractions in the raw material and industrial oil indicates the possibility of using the level of total carotenoid concentration as a reliable and direct approach to indirectly determine the efficacy of oblepiha oil for nutritional, pharmacological, and cosmetic applications.
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Stobdan, Tsering, Phuntsog Dolkar, O. P. Chaurasia und Bhuvnesh Kumar. „Seabuckthorn (Hippophae rhamnoides L.) in trans-Himalayan Ladakh, India“. Defence Life Science Journal 2, Nr. 1 (29.03.2017): 46. http://dx.doi.org/10.14429/dlsj.2.11074.

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<p>Seabuckthorn (SBT) is an ecologically and economically important plant species of trans-Himalayan Ladakh. Once considered a thorny menace, SBT is now looked upon as a means for sustainable development of the trans-Himalayan region. Several antioxidant rich SBT-based products are being developed and commercialized. SBT berry collection from natural habitat has become an important activity in the region since the year 2001. Currently, the demand for SBT exceeds the supply capacity of the region. Cultivation of SBT on 2500 ha would result in annual net income of Rs 491 crore. Anticipating the high demand for SBT, studies are underway to meet the long term goal to introduce plantation of SBT on vast barren land. Potential of the lesser-known shrub has been recognized by several R&amp;D organizations. In recent years a number of research institutes in India are working on the lesser known shrub. This article summarizes the advancement of research on SBT of trans-Himalayan Ladakh origin.</p>
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Kukin, T. P., D. N. Shcherbakov, K. V. Gensh, E. A. Tulysheva, O. I. Salnikova, A. E. Grazhdannikov und E. A. Kolosova. „Bioactive Components of Sea Buckthorn Hippophae rhamnoides L. Foliage“. Russian Journal of Bioorganic Chemistry 43, Nr. 7 (Dezember 2017): 747–51. http://dx.doi.org/10.1134/s1068162017070093.

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Singh, Virendra, H. Nayyar, R. Gupta und Rajesh Uppal. „Germination behaviour of different biotypes of seabuckthorn (Hippophae L.)“. Journal of Non-Timber Forest Products 12, Nr. 4 (01.12.2005): 209–13. http://dx.doi.org/10.54207/bsmps2000-2005-f9yr53.

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The germination behaviour of seeds of 11 natural populations of Hippophae rhamnoides and 1 each of H. salicifolia and H. tibetana growing in cold desert and high altitude region of Himalayan State of Himachal Pradesh, was studied. The seeds of Seabuckthorn growing in arid region of Spiti showed better germination rate (98-100%) than those of semi-arid region of Lahaul (21-97%). Among the species, H. tibetana showed a maximum rate of seed germination (100 %) followed by H. rhamnoides (21.0-100.0%) and H. salicifolia (37.0%). After 14 days, biotype of H. tibetana attained the maximum length of 8.71 cm, significantly higher than those of H. rhamnoides (4.3-6.5 cm) and H. salicifolia (3.7 cm). Seedlings of all the biotypes had longer shoots than roots, with the exception of H. tibetana. Seeds with brown colour, oval, ovate and oblong shapes showed better growth than the cylindrical, elliptical, with the exception of H. tibetana. In general, seeds of medium to large size had better growth than the small seeds.
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Li, He, Cheng-Jiang Ruan, Jaime A. Teixeira da Silva und Bao-Quan Liu. „Associations of SRAP markers with dried-shrink disease resistance in a germplasm collection of sea buckthorn (Hippophae L.)“. Genome 53, Nr. 6 (Juni 2010): 447–57. http://dx.doi.org/10.1139/g10-020.

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Sea buckthorn ( Hippophae L.) is a woody, outcrossing dioecious pioneer plant, being widely planted as a new berry crop with rich nutritional and medicinal compounds. This long-juvenile and long-lived woody plant can be more difficult to cultivate than other crop plants. Dried-shrink disease (DSD) is a dangerous pathogen that destroys sea buckthorn and halts commercial production. We estimated variability of sequence-related amplified polymorphism (SRAP) markers in 77 accessions of 22 sea buckthorn cultivars to seek markers associated with DSD resistance and help to identify potential breeding cultivars. Seventeen SRAP primer combinations generated 289 bands, with a mean of 17 bands per primer combination. At a Dice coefficient of 0.852, the dendrogram generated with 191 polymorphic bands clustered 73 accessions of Hippophae rhamnoides into 2 groups and 4 accessions of Hippophae salicifolia into 1 group. Eleven SRAP markers (Me1-Em3600, Me1-Em1680, Me2-Em1650, Me2-Em1950, Me3-Em61300, Me2-Em6320, Me2-Em6400, Me1-Em2600, Me1-Em11200, Me1-Em11700, Me2-Em2250) were significantly correlated with DSD resistance (P < 0.001). These markers provide a viable option for breeding programs that select lineages with DSD resistance, especially when no other genetic information, such as linkage maps and quantitative trait loci, are available.
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Park, Yu-Hwa, Sang-Hyun Lim, Hun-Ju Ham, Haet-Nim Jeong, Kwang-Jae Lee, Kyung-Hee Kim und Song-Mun Kim. „Comparison of Biological Activities of Extracts from Different Parts of Seabuckthorn (Hippophae rhamnoides L.)“. Journal of the Korean Society of Food Science and Nutrition 39, Nr. 7 (31.07.2010): 975–79. http://dx.doi.org/10.3746/jkfn.2010.39.7.975.

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Novruzov, Eldar Novruz, Latafat Ahad Mustafaeva und Aydan Mirza Zeynalovа. „BIOTECHNOLOGY OF OBTAINING A BIOLOGICALLY ACTIVE CONCENTRATE FROM FRUITS OF HIPPOPHAE RHAMNOIDES L“. Bulletin of the Moscow State Regional University (Natural Sciences), Nr. 3 (2018): 138–47. http://dx.doi.org/10.18384/2310-7189-2018-3-138-147.

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Dang, Xiao Hu, und Lu Li. „A Study on Carbon Sink of Reforestation under Different Grain for Green Models in the Southern Ningxia Province of Loess Hilly Region“. Advanced Materials Research 864-867 (Dezember 2013): 2444–48. http://dx.doi.org/10.4028/www.scientific.net/amr.864-867.2444.

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Based on biomass collected from field surveys and carbon contents determined in laboratory,carbon storage of different reforestation under different models for conversion of cropland to forestland or pasture and its distribution characteristics were examined.The results showed as follow: the carbon stock of the different reforestation models is L. gmelini (106.12 t·hm-2) > P. sibirica (85.08 t·hm-2) > P. davidiana (77.78 t·hm-2) > Hippophae rhamnoides (63.29 t·hm-2) > Caragana korshinskii (52.82 t·hm-2). Compared to that of the sloping cropland (59.55 t·hm-2), carbon densities of P. sibirica and L. gmelini ecosystems increased by 42.90% and 78.20%, respectively; for the Hippophae rhamnoides and P. davidiana ecosystems, the number increased by 6.28% and 30.61%; carbon content in soil layer between 0-100cm reduced significantly with the depth, the distribution pattern of carbon sequestration was in the order of soil layer > vegetation layer.
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Перова, И. Б., О. В. Тринеева, А. И. Сливкин und К. И. Эллер. „Исследование состава флавоноидов плодов облепихи крушиновидной“. Сорбционные и хроматографические процессы 17, Nr. 1 (20.02.2018): 87–93. http://dx.doi.org/10.17308/sorpchrom.2017.17/356.

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Проведено исследование содержания и профиля флавоноидов плодов облепихи крушиновидной (Hippophae rhamnoides L.) с помощью метода ВЭЖХ-ДМД-МС, ТСХ и дифференциальной спектрофотометрии. В плодах облепихи обнаружены флавонолгликозиды – производные кверцетина, кемпферола и изорамнетина. В плодах облепихи впервые идентифицирован кверцетин-3-рутинозид-7-глюкуронид .
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Park, Yu-Hwa, Sang-Hyun Lim, Hun-Ju Ham, Hee-Yeon Kim, Haet-Nim Jeong, Kyung-Hee Kim und Song-Mun Kim. „Isolation of Anti-inflammatory Active Substance β-Sitosterol from Seabuckthorn (Hippophae rhamnoides L.) Stem“. Journal of the Korean Society of Food Science and Nutrition 39, Nr. 7 (31.07.2010): 980–85. http://dx.doi.org/10.3746/jkfn.2010.39.7.980.

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Ahani, Hamid, und Soroush Attaran. „Therapeutic potential of Seabuckthorn (Hippophae rhamnoides L.) in medical sciences“. Cellular, Molecular and Biomedical Reports 2, Nr. 1 (01.03.2022): 22–32. http://dx.doi.org/10.55705/cmbr.2022.330326.1020.

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Christaki, Efterpi. „Hippophae Rhamnoides L. (Sea Buckthorn): a Potential Source of Nutraceuticals“. Food and Public Health 2, Nr. 3 (09.05.2012): 69–72. http://dx.doi.org/10.5923/j.fph.20120203.02.

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Kanayama, Y., W. Ohkawa, E. Chiba, K. Sato, K. Kanahama und J. Ofosu-Anim. „NUTRITIONAL COMPONENTS AND NITROGEN FIXATION IN SEABUCKTHORN (HIPPOPHAE RHAMNOIDES L.)“. Acta Horticulturae, Nr. 806 (Januar 2009): 309–14. http://dx.doi.org/10.17660/actahortic.2009.806.38.

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Kim, Ju-Sung, Chang-Yeon Yu und Myong-Jo Kim. „Phamalogical effect and component of sea buckthorn(Hippophae rhamnoides L.)“. Journal of Plant Biotechnology 37, Nr. 1 (31.03.2010): 47–56. http://dx.doi.org/10.5010/jpb.2010.37.1.047.

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Ivanišová, Eva, Martina Blašková, Margarita Terentjeva, Olga Grygorieva, Olena Vergun, Jan Brindza und Miroslava Kačániová. „Biological properties of sea buckthorn (Hippophae rhamnoides L.) derived products“. Acta Scientiarum Polonorum Technologia Alimentaria 19, Nr. 2 (30.06.2020): 195–205. http://dx.doi.org/10.17306/j.afs.0809.

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Bhadrecha, Pooja, Madhu Bala, Yogender Pal Khasa, Anfal Arshi, Joginder Singh und Manoj Kumar. „Hippophae rhamnoides L. rhizobacteria exhibit diversified cellulase and pectinase activities“. Physiology and Molecular Biology of Plants 26, Nr. 5 (19.03.2020): 1075–85. http://dx.doi.org/10.1007/s12298-020-00778-2.

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Li, Wei, Cheng-Jiang Ruan, Jaime A. Teixeira da Silva, Hai Guo und Chun-E. Zhao. „NMR metabolomics of berry quality in sea buckthorn (Hippophae L.)“. Molecular Breeding 31, Nr. 1 (25.07.2012): 57–67. http://dx.doi.org/10.1007/s11032-012-9768-x.

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Wen, Pingjing, Peng Zhao, Guangqiu Qin, Song Tang, Bin Li, Jiehong Zhang und Liang Peng. „Genotoxicity and teratogenicity of seabuckthorn (Hippophae rhamnoides L.) berry oil“. Drug and Chemical Toxicology 43, Nr. 4 (06.08.2018): 391–97. http://dx.doi.org/10.1080/01480545.2018.1497047.

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Mateuszuk, Kamila. „Rokitnik zwyczajny (Hippophae rhamnoides L.) – cenne źródło dodatków do żywności“. PRZEMYSŁ SPOŻYWCZY 1, Nr. 5 (05.05.2020): 35–38. http://dx.doi.org/10.15199/65.2020.5.6.

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Suryakumar, Geetha, und Asheesh Gupta. „Medicinal and therapeutic potential of Sea buckthorn (Hippophae rhamnoides L.)“. Journal of Ethnopharmacology 138, Nr. 2 (November 2011): 268–78. http://dx.doi.org/10.1016/j.jep.2011.09.024.

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Zhao, Anqi, Wei Xu, Pingjun Xu, Xinxian Zhang, Yunhua Wu, Ang Xu, Yinxiao Zhong, Abiodun Oladipo, Fuliang Cao und Fangfang Fu. „Establishment of Tissue Culture and Regeneration System in Hippophae gyantsensis Lian“. Horticulturae 10, Nr. 5 (30.04.2024): 460. http://dx.doi.org/10.3390/horticulturae10050460.

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Hippophae gyantsensis Lian is a pioneering tree species in Chinese forestry ecological engineering, known for its robust stress tolerance, water retention capacity, and soil improvement qualities. However, the lack of rapid nursery technology has been a significant impediment to the development of the H. gyantsensis industry. In the present study, we have successfully established a tissue culture regeneration system for H. gyantsensis. The most effective methods for seed disinfection, ensuring sterility in seedlings, were found to be 75% alcohol disinfection for 40 s and 10% sodium hypochlorite disinfection for 10 min. The best media tested for callus induction in cotyledons and hypocotyls of sterile seedlings were 1/3 MS + 0.5 mg/L KT + 0.75 mg/L NAA and 1/3 MS + 0.3 mg/L 6-BA + 1.5 mg/L IBA, respectively. As the explants, cotyledons yielded larger calli with a greater size and differentiation ability than hypocotyls. For the induction of indeterminate shoots and proliferation, the most suitable media were 1/3 MS + 0.5 mg/L IAA + 0.75 mg/L 6-BA and 1/3 MS + 1.0 mg/L 6-BA + 0.05 mg/L IBA + 0.1 mg/L KT, respectively. Lastly, the best worked rooting formulation was 1/4 MS + 0.3 mg/L IBA. This study marks a significant milestone in the establishment of a systematic tissue culture regeneration system for H. gyantsensis, which will facilitate the industrial rapid propagation of high-quality seedlings and provide the foundation for improvement through genetic transformation.
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Chowdhury, M. A., S. Jana und W. R. Schroeder. „Phenotypic diversity in four woody species on the Canadian prairies“. Canadian Journal of Plant Science 80, Nr. 1 (01.01.2000): 137–42. http://dx.doi.org/10.4141/p99-010.

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Genetic diversity is a prerequisite for plant adaptation and maintenance of a sustainable ecosystem. Not much information is available on the genetic diversity of woody species on the semi-arid Canadian prairies. We used RAPD fragments to assess the diversity of four woody species of the Elaeagnaceae family, sea buckthorn (Hippophae rhamnoides L.), Russian olive (Elaeagnus angustifolia L.), buffaloberry (Shepherdia argentea Nutt.) and silverberry (Elaeagnus commutata Bernh. Ex Rydb.) collected from several locations in southwestern Saskatchewan. The RAPD fragments were used to generate molecular data for this experiment. Of the total scorable RAPD fragments, 86, 80, 55.2, and 36.5% were polymorphic in sea buckthorn, buffaloberry, silverberry and Russian olive, respectively. Estimates of phenotypic diversity by AMOVA and Shanon's information index revealed that buffaloberry and sea buckthorn had relatively high phenotypic diversity and Russian olive had low phenotypic diversity. Key words: Sea buckthorn, silverberry, buffaloberry, Russian olive, RAPD, phenotypic diversity, Hippophae, Elaeagnus, Shepherdia
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Lobacheva, I., und W. Letchamo. „Toxic Metals in Different Varieties of Seabuckthorn (Hippophae rhamnoides)“. HortScience 33, Nr. 3 (Juni 1998): 481e—482. http://dx.doi.org/10.21273/hortsci.33.3.481e.

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Seabuckthorn (Hippophae rhamnoides, L) (Oblepiha, Siberian pineapple, Sandorn, Sha-ji), from the Eleagnaceae family, is one of the most important and leading sources of pharmaceutical, nutritional, and cosmetic products in Tibet, Russia, and China. Hippophae oil is an important component of the cream for protection from cosmic radiation, tan-enhancing, cell tissue regeneration, wound healing, and antiaging properties. It is a good source of natural antioxidants, and is used to boost the body immune system, adaptation to extreme conditions, and increased performance body performance. The fruits, seeds, leaves, and cork contain a large amount of chemical elements, essential oils, vitamins A, B, C, E, carotenoids, flavonoids, palmitic and palmitoleic acids, unsaturated fatty acids, α-sitosterol, proteins, minerals, and many other bioactive compounds. As part of the selection and genetic improvement program to develop superior varieties of higher fruit yield, quality and resistance, varietal difference in the uptake or accumulation of heavy (toxic) metals in the berries was investigated. The variation in the content or accumulation of Zn, Cu, Pb, Cd, and Fe in the berries of three varieties of Hippophae (Chuiskaja, Zivko, and Chechek) with differing morphological, and fruit quality was studied. The plants were grown under similar conditions, at Lisavenko Inst. for fruit trees research in Russia. There was a significant difference in the concentration of the metals among the three varieties. Variety `Tchuiiskaja' was found to have significantly higher concentration (P < 0.05) of Cu, Pb, and Fe. The lowest concentration of the metals was recorded for the variety `Chechek'. The obtained results enable us to suggest, that the Hippophae varieties may significantly vary in the accumulation toxic elements in their berries. This fact should be well considered during selection and improvement program for Hippophae.
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Çomaklı, Emre. „Evaluation of heavy metal accumulation in sediment, surface water and some plants in the Karasu Riparian Zone“. Bulletin of the Chemical Society of Ethiopia 37, Nr. 1 (26.10.2022): 35–45. http://dx.doi.org/10.4314/bcse.v37i1.4.

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ABSTRACT. This study aims to determine and compare the heavy metal concentrations in the water, sediment, and plants of the Karasu river in Erzurum, Türkiye. In this context, aluminum (Al), manganese (Mn), iron (Fe), nickel (Ni), zinc (Zn), and barium (Ba) concentrations were measured for this study. Salix excelsa (willow), Rosa canina L., Pyrus elaeagnifolia (wild pear), Malus sylvestris (wild apple), and Hippophae rhamnoides L. (sea buckthorn) plants were used as samples. Heavy metal concentrations follow the order of Al3+ > Fe2+ > Mn2+ > Ba2+ > Ni2+ > Zn2+ in the sediment. Heavy metal concentrations follow the order of Al3+ > Fe2+ > Ba2+ > Mn2+ > Zn2+ > Ni2+ in water. The leaf part of Salix excelsa has the highest bioconcentration factor (BCF) for Mn among plant parts. Mean BCF values were as follows: Zn2+ > Mn2+ > Ba2+ > Ni2+ > Al3+ ≈ Fe2+. In addition, the highest plant translocation factor (PTF) values were determined in Salix excelsa for Al and Fe; in Rosa canina L. for Ni and Zn; in Hippophae rhamnoides L. for Mn and in Malus sylvestris for Ba. KEY WORDS: Heavy metals accumulation, Sediment, Water, Plant, Riparian Zone Bull. Chem. Soc. Ethiop. 2023, 37(1), 35-45. DOI: https://dx.doi.org/10.4314/bcse.v37i1.4
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Rudaya, M. A., O. V. Trineeva und A. I. Slivkin. „RESEARCH OF ELEMENT COMPOSITION OF SEA BUCKTHORN (HIPPOPHAE RHAMNOIDES L.) FRUITS OF VARIOUS CULTIVARS“. Trace Elements in Medicine (Moscow) 19, Nr. 3 (2018): 49–59. http://dx.doi.org/10.19112/2413-6174-2018-19-3-49-59.

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46

Rentsendavaa, Chagnadorj, Márton Szána, Gitta Ficzek, Lilla Szalóki-Dorkó, Mónika Stéger-Máté und Diána Furulyás. „Investigation of nutritional parameters in different parts of sea buckthorn (Hippophae rhamnoides L.) berries“. Journal on Processing and Energy in Agriculture 22, Nr. 2 (2018): 10–13. http://dx.doi.org/10.5937/jpea1801010r.

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47

Skuridin, G. M., O. V. Chankina, A. A. Legkodymov, V. K. Kreimer, N. V. Baginskaya und K. P. Koutzenogii. „Trace element composition of common sea buckthorn (Hippophae rhamnoides L.) tissues“. Bulletin of the Russian Academy of Sciences: Physics 77, Nr. 2 (Februar 2013): 207–10. http://dx.doi.org/10.3103/s1062873813020342.

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48

Ohkawa, W., Y. Kanayama, K. Kato, E. Chiba, K. Kanahama und K. Kohama. „CHARACTERIZATION OF THE NUTRITIONAL COMPONENTS OF SEABUCKTHORN (HIPPOPHAE RHAMNOIDES L.) FRUITS“. Acta Horticulturae, Nr. 769 (Juni 2008): 169–75. http://dx.doi.org/10.17660/actahortic.2008.769.22.

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Фарзалиев, Эльсевар Баба оглы, Владимир Николаевич Голубев und Татьяна Борисовна Цыганова. „Исследование и идентификация пектиновых веществ дикорастущих плодов облепихи (Hippophae rhamnoides L.)“. Хранение и переработка сельхозсырья, Nr. 3 (02.11.2021): 115–25. http://dx.doi.org/10.36107/spfp.2021.247.

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В данной статье рассматриваются вопросы использования дикорастущего растительного сырья, в частности, облепихи крушиновидной (Hippophae rhamnoides L.), произрастающей в Азербайджанской Республике как перспективного источника пектиновых веществ. Представлены результаты исследования процессов экстракции и очистки полисахаридов из вторичных отходов переработки плодов облепихи и приведены сведения о идентификации пектиновых веществ физико-химическими методами. Проведенная идентификация выделенных пектиновых веществ с использованием физико-химических методов -элементарный анализ, ИК- и ЯМР-спектроскопия, позволила определить, что пектин из плодов дикорастущей облепихи, представляет собой смесь линейных и высокоразветвленных полимеров, преимущественно высоко-молекулярных, α-D-галактуронана и других полисахаридов, в макромолекулы которых входят остатки галактуроновой кислоты и нейтральные сахара. Установлено, что по степени этерификации облепиховый пектин относится к низкоэтерифицированному пектину, при этом имеет достаточно высокую молекулярную массу, а содержание свободных карбоксильных групп обеспечивает высокую комплексообразующую способность облепихового пектина к ионам свинца, что позволяет рекомендовать его для включения в рецептуры пищевых продуктов для здорового питания.
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Ivanišová, Eva, Martina Blašková, Margarita Terentjeva, Olga Grygorieva, Olena Vergun, Jan Brindza und Miroslava Kačániová. „Biological properties of sea buckthorn (Hippophae rhamnoides L.) derived products [pdf]“. Acta Scientiarum Polonorum Technologia Alimentaria 19, Nr. 2 (30.06.2020): 195–205. http://dx.doi.org/10.17306/j.afs.2020.0809.

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