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Journal articles on the topic 'Weigall'

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Published: 29 July 2024
Last updated: 30 July 2024

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1

Mason, Herbert W., and Julie Hankey. "A Passion for Egypt: A Biography of Arthur Weigall." International Journal of African Historical Studies 36, no. 1 (2003): 240. http://dx.doi.org/10.2307/3559377.

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2

Kaczanowicz, Marta. "Gordon Jelf and his Notes on the Work Conducted in the Theban Necropolis, 1909-1910." Journal of Egyptian Archaeology 106, no. 1-2 (June 2020): 37–58. http://dx.doi.org/10.1177/0307513320966617.

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In August of 1909, Charles Gordon Jelf joined Arthur E. P. Weigall in Thebes to assist him in the preparation of the famous Topographical Catalogue. Jelf kept a notebook in which he recorded details of archaeological work carried out in the course of the 1909–10 season. The notebook, identified as Jelf’s by Donald P. Ryan and Jaromir Malek, and subsequently donated to the Griffith Institute, contains information on unpublished excavations and finds, as well as other details, including the identity of the person responsible for the rediscovery of the famous tombs of Kheruef (TT 192).
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3

Svejda, Felicitas. "‘Rumba’ Weigela." HortScience 20, no. 1 (February 1985): 149. http://dx.doi.org/10.21273/hortsci.20.1.149.

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4

Svejda, Felicitas. "‘Samba’ Weigela." HortScience 21, no. 1 (February 1986): 166. http://dx.doi.org/10.21273/hortsci.21.1.166.

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5

Landau, Peter. "Rudolf Weigand." Zeitschrift der Savigny-Stiftung für Rechtsgeschichte: Kanonistische Abteilung 86, no. 1 (August 1, 2000): 647–53. http://dx.doi.org/10.7767/zrgka.2000.86.1.647.

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6

McNamara, Steve, and Stan C. Hokanson. "Cold Hardiness of Weigela (Weigela florida Bunge) Cultivars." Journal of Environmental Horticulture 28, no. 1 (March 1, 2010): 35–40. http://dx.doi.org/10.24266/0738-2898-28.1.35.

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Abstract Factual information regarding the low-temperature tolerances of weigela (Weigela florida Bunge) cultivars is essential for identifying cultivars to grow and sell in northern regions of the country [USDA Hardiness Zone 4a;−32 to−34C (−25 to−30F) average annual minimum temperature]. In this study, laboratory freezing tests and a replicated field trial were utilized to compare the relative stem hardiness of 11 recent weigela introductions with that of four standard cultivars representing a known range of hardiness. Freezing tests were conducted monthly from October 2005 to April 2006 on containerized plants over-wintered in a minimally-heated greenhouse under a non-lethal temperature regime conducive to cold acclimation. The cultivars differed substantially in both timing and rates of cold acclimation and de-acclimation in the fall and spring, respectively, as well as maximum midwinter hardiness levels. All of the cultivars, including the cold-hardy standards ‘Minuet’ and ‘Java Red’, were relatively slow to acclimate in early October, but subsequent acclimation rates among cultivars ranged from 0.3 to 0.7C (0.6 to 1.25F) per day between mid-October and mid-November. Maximum midwinter hardiness levels of the new cultivars were within the range defined by the most and least cold tolerant standard cultivars (‘Java Red’ and ‘Variegata’, respectively). With the exception of ‘Java Red’, all cultivars had de-acclimated substantially by March 16, but actual hardiness levels among the new cultivars on this date differed by as much as 10C (18F). Overall, ‘Pink Poppet’, ‘Dark Horse’ and ‘Ruby Queen’ were the hardiest of the new cultivars evaluated with a maximum midwinter hardiness level of−35C (−31F). ‘Alexandra’, ‘Evita’, and ‘Sunny Princess’ exhibited hardiness comparable to that of the moderately hardy standard ‘Red Prince’ and would likely experience moderate to severe injury during colder winters in Zone 4a. ‘Brigela’, ‘Carnaval’, ‘Elvera’, ‘Goldrush’ and ‘Rubidor’ appear to be unsuitable for use in Zone 4a due to late acclimation, insufficient midwinter hardiness, early de-acclimation or a combination of these characteristics. Results of limited testing conducted in 2007–2008 indicate ‘Verweig’, a more recent introduction, is sufficiently cold tolerant for Zone 4a.
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7

Richer-Leclerc, C., J. Côté, J. A. Rioux, and R. Drapeau. "Caractérisation du potentiel de rusticité de sept arbustes ornementaux en fonction de l'intensité des dommages hivernaux." Canadian Journal of Plant Science 76, no. 3 (July 1, 1996): 499–506. http://dx.doi.org/10.4141/cjps96-092.

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The winter-hardiness of seven ornamental shrub species was characterized based on their ability to regenerate and to maintain their ornamental characteristics following winter damage. Lonicera involucrata and Weigela hybrida 'Brystol Ruby' reached full ornamental expression in zone 5b of the Canadian Climatic Classification System, while Cotoneaster dammeri 'Skogholm', Hydrangea arborescens 'Annabelle, Kerria japonica, Rosa multiflora and Weigela florida 'Variegata' required warmer conditions. Rosa multiflora and Lonicera involucrata survived in zone 2a, Weigela hybrida 'Brystol Ruby' in zone 2b and the other species m zones 3 or 4. The partial expression of ornamental characteristics restricted the utilization of Lonicera involucrata to zone 2a, of Hydrangea arborescens 'Annabelle' to zone 2b and of Cotoneaster dammeri 'Skogholm' and Weigela hybrida 'Brystol Ruby' to zone 4. Rosa multiflora Weigela florida 'Variegata' and Kerria japonica both received two classifications based on the expression of different ornamental characteristics. Key words: Winter damage, survival, ornamental shrubs, growth
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8

Weigle, Jack, and Loren Stephens. "`Red Prince' Weigela." HortScience 26, no. 2 (February 1991): 218–19. http://dx.doi.org/10.21273/hortsci.26.2.218.

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9

Spongberg, Stephen A. "Introducing Weigela subsessilis." Arnoldia 53, no. 4 (1993): 31–33. http://dx.doi.org/10.5962/p.251103.

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10

Hamm, Trinity P., Sarah L. Boggess, Jinita Sthapit Kandel, Margaret E. Staton, Matthew L. Huff, Denita Hadziabdic, DeWayne Shoemaker, John J. Adamczyk Jr., Marcin Nowicki, and Robert N. Trigiano. "Development and Characterization of 20 Genomic SSR Markers for Ornamental Cultivars of Weigela." Plants 11, no. 11 (May 29, 2022): 1444. http://dx.doi.org/10.3390/plants11111444.

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Weigela (Caprifoliaceae) is a genus of ornamental plants popular for its phenotypic variation and hardiness, that includes species hybridized to produce the commercially available cultivars. Despite its popularity, limited genetic resources exist for the genus. Twenty genomic simple sequence repeat (gSSR) markers distributed across the genome were developed using low coverage whole-genome sequencing data of Weigela Spilled Wine®. A cross-amplification evaluation with these 20 gSSR markers on a collection of 18 Weigela cultivars revealed a total of 111 unique alleles, including 36 private alleles. A diagrammatic key was constructed to identify cultivars using only six of the gSSR markers, demonstrating the newly developed gSSR markers are immediately useful for cultivar identification. Future uses could include breeding with marker-assisted selection, determining the history of hybridization of the current cultivated lines, aiding in the construction of genetic maps, and assessing the patterns of population genetic structure of Weigela spp.
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11

Rowell, Charles H., and Jay Weigel. "Jay Weigel." Callaloo 29, no. 4 (2006): 1316–21. http://dx.doi.org/10.1353/cal.2007.0091.

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12

Weigel, Detlef. "Detlef Weigel." Current Biology 17, no. 7 (April 2007): R227—R228. http://dx.doi.org/10.1016/j.cub.2007.01.016.

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13

Teodoro, M., T. R. Gull, M. A. Bautista, D. J. Hillier, G. Weigelt, and M. F. Corcoran. "Onthe changes in the physical properties of the ionized region around the Weigelt structures in η Carinae over the 5.54-yr spectroscopic cycle." Monthly Notices of the Royal Astronomical Society 495, no. 3 (January 2020): 2754–70. http://dx.doi.org/10.1093/mnras/staa1311.

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ABSTRACT We present HST/STIS observations and analysis of two prominent nebular structures around the central source of η Carinae, the knots C and D. The former is brighter than the latter for emission lines from intermediate- or high-ionization potential ions. The brightness of lines from intermediate- and high-ionization potential ions significantly decreases at phases around periastron. We do not see conspicuous changes in the brightness of lines from low-ionization potential (<13.6 eV) ions over the orbital period. Line ratios suggest that the total extinction towards the Weigelt structures is AV = 2.0. Weigelt C and D are characterized by an electron density of 106.9 cm−3 that does not significantly change throughout the orbital cycle. The electron temperature varies from 5500 (around periastron) to 7200 K (around apastron). The relative changes in the brightness of the He i lines are well reproduced by the variations in the electron temperature alone. We found that, at phases around periastron, the electron temperature seems to be higher for Weigelt C than that of D. The Weigelt structures are located close to the Homunculus equatorial plane, at a distance of about 1240 au from the central source. From the analysis of proper motion and age, the Weigelt complex can be associated with the equatorial structure called ‘Butterfly Nebula’ surrounding the central binary system.
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14

Richer-Leclerc, C., J. Côté, J. A. Rioux, M. F. Beaudoin, D. Lapointe, M. Auger, and C. Péron. "Potentiel d’adaptation et de croissance d’arbustes ornementaux à fleurs évalués sous les conditions climatiques du Québec et du nord-est ontarien." Canadian Journal of Plant Science 73, no. 4 (October 1, 1993): 1137–48. http://dx.doi.org/10.4141/cjps93-153.

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Seven flowering cultivars of deciduous shrubs were evaluated for their winter hardiness and their growth potential to provide adequate recommendations regarding their adaptation to different climatic conditions. Plants were grown at eight sites in Québec and one in northeastern Ontario in order to cover three broad biogeographic regions. Hydrangea paniculata ’Grandiflora’, Kerria japonica (L.) DC., Potentilla fruticosa ’Goldfinger’, Prunus × cistena N.E. Hansen, Prunus tomentosa Thunb., Viburnum opulus ’Compactum’ and Weigela hybrida ’Brystol Ruby’ were used. Potentilla and Viburnum were not affected by winter conditions at any of the sites, whereas Hydrangea, Kerria and Weigela did not survive at Kapuskasing. Our results indicated that Weigela was adapted to zone 5b only, whereas Kerria should not be recommended in any zone tested. Although the other species were adapted throughout Quebec, their production was superior in the Montreal region. Annual pruning of Kerria and Weigela was related exclusively to winter damage. For the other species, pruning is related to winter, rodent and mechanical damage. Key words: Winter hardiness, growth potential, winter damage
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15

Fowler, William R., Christopher S. Beekman, and Robert B. Pickering. "Introduction." Ancient Mesoamerica 17, no. 2 (July 2006): 231–33. http://dx.doi.org/10.1017/s0956536106060202.

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Phil C. Weigand has devoted his career to the anthropology and archaeology of the most poorly known area of Mesoamerica, “an enormous area of elaborate cultural development [that] has been relegated to unimportance” (Weigand and Foster 1985:5). We refer, of course, to theOccidenteor West Mexico, roughly defined by the states of Michoacán, Colima, Jalisco, and Nayarit, often including parts of Guanajuato, Zacatecas, Sinaloa, and sometimes Guerrero. Over the course of his career, Weigand has integrated data from archaeology, ethnohistory, and ethnography to gain a better understanding of western Mesoamerica. This Special Section is anhomenajeto Phil that draws together contributions by some of his friends and colleagues who have felt his influence over the years.
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16

Chalcraft, Anthony. "International Relations: A Concise Companion2003173David Weigall. International Relations: A Concise Companion. London: Arnold 2002. vii + 256 pp., ISBN: ISBN 0 340 76332 9 (hard back); ISBN 0 340 76333 7 (paperback) £40.00, $72.00 (hard back); £12.99 $18.95 (paperback) Distributed in the US by Oxford University Press." Reference Reviews 17, no. 4 (April 2003): 16–17. http://dx.doi.org/10.1108/09504120310473362.

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17

GÓMEZ LÓPEZ, ANA MARÍA. "On taphonomy: collages and collections at the Geiseltalmuseum." BJHS Themes 4 (2019): 195–214. http://dx.doi.org/10.1017/bjt.2019.13.

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AbstractGerman palaeontologist Johannes Weigelt (1890–1948) was the first proponent of taphonomy – the study of the decay, burial and fossilization of plants, animals and other organisms across geological time. Thousands of his fossil specimens, many recovered from coal fields in central Germany, are stored within the Geiseltalmuseum – a palaeontological collection at the Martin Luther University Halle-Wittenberg, founded by Weigelt in 1934. A significant portion of Weigelt's papers and extensive photographic production related to his taphonomic research are also within the museum's holdings. Amidst these documents, museum curator Dr Meinholf Hellmund and I discovered over forty photo-collages attributable to Weigelt. This visual essay exposes the through-lines between Weigelt's unpublished collages and his academic activities on taphonomy, suggesting the museum archive as a site of ideological fault lines crossing concomitant artistic and scientific production.
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18

Hoffman, M. H. A. "CULTIVAR CLASSIFICATION OF WEIGELA." Acta Horticulturae, no. 799 (September 2008): 31–38. http://dx.doi.org/10.17660/actahortic.2008.799.2.

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19

Landau, Peter. "Nachruf auf Rudolf Weigand." Archiv für katholisches Kirchenrecht 167, no. 1 (May 5, 1998): 115–24. http://dx.doi.org/10.30965/2589045x-16701006.

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20

Hedman, Paul B., John M. Dole, Niels O. Maness, and Jeffrey A. Anderson. "Postharvest Ethylene Production and Sensitivity of Eight Specialty Cut Flower Species." HortScience 30, no. 4 (July 1995): 835C—835. http://dx.doi.org/10.21273/hortsci.30.4.835c.

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The postharvest biosynthesis of ethylene and CO2 was measured at 0, 12, 24, and 48 h after harvest and the effects of exogenous applications of 0.0, 0.2, or 1.0 μl·liter–1 ethylene for 20 h was observed on eight speciality cut flower species. Helianthus maximilliani (Maximillian's sunflower), Penstemon digitalis (penstemon), Achillea fillipendulina [`Coronation Gold' (yarrow)], Celosia plumosa [`Forest Fire' (celosia)], Cosmos bipinnatus [`Sensation' (cosmos)], Buddleia davidii (butterfly bush), and Weigela sp. (weigela) exhibited a climacteric-like pattern of ethylene production followed by a steady rise in CO2 production. Echinacea purpurea (coneflower) ethylene biosynthesis was not significant during the 48-h period after harvest. Vase life of coneflower, yarrow, celosia, cosmos, and butterfly bush was not affected by exogenous ethylene. Exogenous ethylene applications to Maximillian's sunflower, penstemon, and weigela resulted in flower abscission and decreased vase life, indicating that they are probably ethylene-sensitive cut flower species.
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21

ROȘCA, Ion, Tatiana TANACHI, Elisaveta ONICA, and Alina CUTCOVSCHI-MUȘTUC. "THE GROWTH, DEVELOPMENT AND USE OF NEW TAXA OF THE GENUS WEIGELA THUNB. IN GREEN SPACE DESIGN IN THE REPUBLIC OF MOLDOVA." Journal of Plant Development 29, no. 1 (2022): 171–76. http://dx.doi.org/10.47743/jpd.2022.29.1.906.

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The peculiarities of growth, development and use of 5 new taxa of the genus Weigela Thunb. have been described. The studied taxa – Weigela florida 'Alexandra', 'Carlton', 'Caricature', 'Minor Black' and 'Pink Princess' – differ in size, crown diameter, annual growth, density of flowering stalks per shoot from the previous year, flower density per 20-cm-long shoot, abundance of flowering, colour of flowers and leaves. All of them can be used successfully in landscaping in the Republic of Moldova.
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22

Phấn, Phùng Thị, Nguyễn Hữu Quân, Từ Quang Tân, and Nguyễn Đức Hùng. "NGHIÊN CỨU PHÂN LẬP VÀ XÁC ĐỊNH CẤU TRÚC HÓA HỌC CỦA HỢP CHẤT SAPONIN TỪ PHẦN RỄ CỦA LOÀI WEIGELA FLORIDA “JEAN’S GOLD”." TNU Journal of Science and Technology 227, no. 10 (June 24, 2022): 104–11. http://dx.doi.org/10.34238/tnu-jst.5929.

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Chi Weigela, thuộc họ Kim ngân (Caprifoliaceae) được sử dụng rộng rãi trong y học cổ truyền tại các nước châu Á. Các hợp chất saponin phân lập được từ chi Weigela có nhiều hoạt tính sinh học mạnh như kháng oxy hóa, kháng viêm và kháng ung thư. Nghiên cứu đã tạo được cao chiết ethanol từ loài Weigela florida “Jean’s Gold” bằng phương pháp chiết xuất có hỗ trợ vi sóng. Hai hợp chất saponin đã được tách chiết từ cao chiết ethanol dựa trên các phương pháp sắc ký hiện đại. Cấu trúc hóa học của các hợp chất này được xác định là olean-12-en-28-oic acid, 3-[(O-β-D-glucopyranosyl-(1®3)-[β-D-xylopyranosyl-(1®4)]-β-D-xylopyranosyl-(1®4)-β-D-xylopyranosyl-(1®3)-6-deoxy-α-L-rhamnopyranosyl-(1®2)-β-D-arabinopyranosyl)oxy]-, (3β)- (1), and olean-12-en-28-oic acid, 3-[(O-β-D-glucopyranosyl-(1®2)-[β-D-xylopyranosyl-(1®4)]-β-D-xylopyranosyl-(1®4)-β-D-xylopyranosyl-(1®3)-6-deoxy-α-L-rhamnopyranosyl-(1®2)-β-D-xylopyranosyl)oxy]-, (3β)- (2). Đây là các hợp chất đã được phân lập trước đây từ các loài cùng thuộc chi Weigela, họ Caprifoliaceae.
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23

Bhattacharyya, S. C., S. A. Samad, J. C. Mandal, and S. N. Chatterjee. "X-ray inactivation, Weigle reactivation, and Weigle mutagenesis of the lysogenic Vibrio κ phage." Canadian Journal of Microbiology 37, no. 4 (April 1, 1991): 265–69. http://dx.doi.org/10.1139/m91-041.

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Vibrio cholerae lysogenic κ phage was inactivated by X-ray (60 kV) in a dose-dependent manner, the inactivation dose leading to 37% survival (D37) in phosphate-buffered saline (PBS), pH 7.4, being 0.36 kGy. The phages were significantly protected against X-ray irradiation when histidine or cysteine or both were present in PBS or when phages were irradiated in nutrient broth. Maximum protection was offered when both histidine (10.0 mM) and cysteine (10.0 mM) were present in PBS (dose enhancement factor being 4.17). The X-irradiated κ phages also underwent a small but significant Weigle reactivation and also Weigle mutagenesis in the UV-irradiated V. cholerae host H218Smr. The Weigle factor or the frequency of clear-plaque mutants increased with increasing UV dose, attained a maximum at a UV dose of 2.4 J m−2, and thereafter decreased gradually with a further increase of the UV dose. The X-ray dose (D) – survival (S) curves could be empirically described by the equation S = exp[−(aD + bD2)], where a and b are constants depending on the irradiation conditions, and a good agreement between the theoretical curves and experimental data was obtained. Key words: Vibrio cholerae, lysogenic κ phage, X-ray inactivation, Weigle reactivation, Weigle mutagenesis.
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24

Dwyer, Jennifer L., N. Curtis Peterson, and G. Stanley Howell. "Influence of Warming Temperatures on Shoot Dehardening of Container-grown Nursery Stock." HortScience 30, no. 4 (July 1995): 775E—775. http://dx.doi.org/10.21273/hortsci.30.4.775e.

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Studies were conducted with Physocarpus, Weigela, Hibiscus, Euonymus, Forsythia, Spiraea, Lonicera, and Taxus to evaluate the effects of warming temperatures on shoot dehardening. Container-grown plants were stored pot-in-pot, allowing shoots to receive natural outdoor conditions until early March. Control plants remained at 0C (32F), while treatment plants were placed in a temperature-controlled chamber at 21C (70F) and given up to 8 days of warming. Controlled-temperature freezing was used to evaluate plant hardiness. Hardiness levels of Weigela, Spiraea, and Forsythia rapidly decreased after 1 day of warming and again after the 7th day. Hibiscus gradually decreased in hardiness until the 7th day. The influence of polyhouse storage, in which plants were stored pot-in-pot, on the dehardening of Weigela, Hibiscus, and Euonymus was compared to outdoor storage, where plants were stored pot-in-pot. The warming effects of the polyhouse decreased the cold hardiness of the species studied. Results of the warming effects will be presented.
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Geun Eom, Young, and Youn Jib Chung. "Perforated Ray Cells in Korean Caprifoliaceae." IAWA Journal 17, no. 1 (1996): 37–43. http://dx.doi.org/10.1163/22941932-90000622.

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Perforated ray cells are recorded for the first time in species of Lonicera, Sambucus, Viburnum, and Weigela (Caprifoliaceae) that grow in Korea, These ray cells have simple perforations in Lonicera and Sambucus which have vessel elements with simple perforations, and have scalariform perforation s or variant types of scalariform perforations in Viburnum and Weigela which have vessel elements with scalariform perforations. In Korean Caprifoliaceae the perforations of ray cells are similar to the types of perforation plates in the vessel elements of the same wood.
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Chong, Calvin, R. A. Cline, D. L. Rinker, and O. B. Allen. "Growth and Mineral Nutrient Status of Containerized Woody Species in Media Amended with Spent Mushroom Compost." Journal of the American Society for Horticultural Science 116, no. 2 (March 1991): 242–47. http://dx.doi.org/10.21273/jashs.116.2.242.

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`Eight deciduous ornamental shrubs-deutzia (Deutzia gracilis Siebold & Zucc.), dogwood (Cornus alba L. `Argenteo-marginata'), forsythia (Forsythia × intermedia Zab. `Lynwood Gold'), ninebark [Physocarpus opulifolius (L.) Maxim.], potentilla (Potentilla fruticosa L. `Red Ace'), privet (Ligustrum vulgare L.), rose (Rosa L. `John Frank. lin'), and weigela [Weigela florida (Bunge) A. DC. `Variegata Nana']—were grown in trickle-irrigated containers with 100% bark (control) or with bark and 33%, 67%, and 100% (by volume) of each of three sources of spent mushroom compost (unweathered, weathered, and unweathered compost leached with water). Despite large variation in species growth response to sources and levels of compost, most grew equally well or better in the compost-amended regimes than in 100% bark and were influenced little, or not at all, by initial or prevailing salt levels in the media. Shoot and root dry weight of dogwood, forsythia, ninebark, rose, and weigela (all sources), and shoot dry weight of deutzia and potentilla (weathered source only), increased linearly or curvilinearly with increasing compost levels. The reverse relationship occurred (all sources) in shoot and root dry weight of privet and root dry weight of weigela and potentilla. Leaf nutrients (N, P, K, Ca, Mg, Fe, Mn, and Zn) tended to increase with increasing compost levels, but not all species showed this response with all nutrients. Regardless of compost source or level, all shrubs were of marketable quality when harvested, except privet, which showed leaf chlorosis in all compost-amended regimes.
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McDaniel, Gary L., Donna C. Fare, Willard T. Witte, and Phillip C. Flanagan. "Yellow Nutsedge Control and Nursery Crop Tolerance with Manage as Affected by Adjuvant Choice." Journal of Environmental Horticulture 17, no. 3 (September 1, 1999): 114–19. http://dx.doi.org/10.24266/0738-2898-17.3.114.

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Abstract Adjuvants combined with one-half rate (18 g ai/ha, 0.26 oz ai/A) of Manage (MON 12051, halosulfuron) were evaluated for phytotoxicity on five species of landscape plants grown in containers and for effectiveness of yellow nutsedge (Cyperus esculentus L.) control. Adjuvants tested at 0.25 and 0.5% (v/v) were: X-77 (non-ionic), Scoil (methylated soybean seed oil), Sun-It II (methylated sunflower seed oil), Agri-Dex (paraffin crop oil concentrate), and Action “99” (non-ionic organosilicone). Manage combined with each adjuvant injured Japanese holly (I. crenata Thunb. ‘Bennett's Compacta’), forsythia (Forsythia x intermedia Zab. ‘Lynwood Gold’), green liriope (Liriope muscari Bailey ‘Big Blue’), and weigela (Weigela florida Bunge ‘Pink Lady’), but not ‘Blue Girl’ holly (Ilex x meserveae S.Y. Hu ‘Blue Girl’). Manage with Scoil produced moderate phytotoxicity on forsythia and weigela and reduced growth of all landscape plants. Manage plus Action “99” caused severe phytotoxicity to weigela and reduced growth on all plants tested. Manage plus Agri-Dex treatment resulted in moderate to severe growth reduction to all plants, with severe marginal necrosis of foliage on forsythia and weigela. Manage with Sun-It II resulted in less growth reduction and fewer phytotoxic symptoms of the test species, compared to other adjuvant plus Manage combinations. Initially, foliar chlorosis was observed on all species except ‘Blue Girl’ holly with the Manage plus Sun-It II treatment, but most plants had recovered by 8 weeks after treatment (WAT). Yellow nutsedge control at 4WAT was greater when Manage (18 g ai/ha, 0.26 oz/A) was combined with Scoil, Sun-It II, Agri-Dex, or Action “99” adjuvants. By 8WAT, Manage combined with Sun-It II resulted in 98–100% control of nutsedge. Manage plus the adjuvants Scoil or Sun-It II resulted in superior yellow nutsedge control compared to X-77, Action “99”, or Agri-Dex and had little effect on growth of these landscape plants.
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Svejda, Felicitas. "Weigela Cultivars Tango and Polka." HortScience 23, no. 4 (August 1988): 787–88. http://dx.doi.org/10.21273/hortsci.23.4.787b.

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Abstract ‘Tango’ and ‘Polka’ are very hardy, freely flowering, dwarf shrubs. ‘Tango’ has purple foliage and red flowers, with a single flowering period. ‘Polka’ has green foliage, light pink flowers, and flowers recurrently.
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29

McNamara, Steve, and Harold Pellett. "Cold Hardiness of Weigela Cultivars." Journal of Environmental Horticulture 16, no. 4 (December 1, 1998): 238–42. http://dx.doi.org/10.24266/0738-2898-16.4.238.

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Abstract Laboratory freezing tests of stem hardiness were conducted to develop cold hardiness profiles for 18 weigela (Weigela sp.) cultivars during the fall and winter of 1994–95. Tests were performed on containerized plants held in a temperature-controlled greenhouse to prevent exposure to potentially lethal temperatures. No cultivar survived below −6C (21F) in the October 3 test. Subsequent differences in rates of acclimation resulted in cultivars differing in hardiness by as much as 13C (23F) on November 14. Taxa also differed greatly in their maximum midwinter low temperature tolerance with ‘Centennial’ and ‘Eva Supreme’ hardy to −44C (−47F) and −28C (−18F) in mid-January, respectively. None of the cultivars deacclimated substantially in response to a week of artificially-imposed diurnal freeze/thaw cycles in early February. Taxa with the greatest midwinter hardiness also maintained the greatest hardiness in early March. Overall, ‘Centennial’, ‘Java Red’, and ‘Samba’ were the most cold hardy cultivars tested, while ‘Boskoop Glory’, ‘Bristol Snowflake’, and ‘Variegata’ were the least hardy. Cold injury of susceptible weigela cultivars appears to be a consequence of late hardening and/or insufficient midwinter hardiness rather than rapid deacclimation in response to periods of warm temperatures in mid-to late-winter.
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Locke, Edwin A. "Comments on Weinberg and Weigand." Journal of Sport and Exercise Psychology 16, no. 2 (June 1994): 212–15. http://dx.doi.org/10.1123/jsep.16.2.212.

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31

Weeks, Andrew. "Valentin Weigel and Anticlerical Tradition." Daphnis 48, no. 1-2 (March 19, 2020): 140–59. http://dx.doi.org/10.1163/18796583-04801009.

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Paracelsus, Valentin Weigel, and Jacob Böhme are not only linked by a clear chain of influence and borrowing; they are all deeply rooted in the Protestant Reformation. However, the tendency to assign Paracelsus to medicine or the Renaissance and to subsume Weigel and Böhme under the anachronistic heading of “German mysticism” has obfuscated their kinship as well as their significance in German intellectual history. Their relegation distorts the breadth of the reform set in motion after 1517. They share an anticlerical tendency and a determination to expand the Reformation beyond doctrine and devotion to encompass other spheres of life and learning. Their reforming antiauthoritarianism found expression both in the nature philosophy of Paracelsus and in the mystical impulses of Weigel and Böhme.
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Clark, Mary Jane, and Youbin Zheng. "Effect of Topdressed Controlled-release Fertilizer Rates on Nursery Crop Quality and Growth and Growing Substrate Nutrient Status in the Niagara Region, Ontario, Canada." HortScience 52, no. 1 (January 2017): 167–73. http://dx.doi.org/10.21273/hortsci11309-16.

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The objectives of the current study were to 1) determine the best topdressed controlled-release fertilizer (CRF) application rates for quality and growth of two nursery crops under temperate climate outdoor nursery production conditions in the Niagara region, Ontario, Canada, and 2) evaluate the nutrient status of the growing substrate following topdressing of two CRF types during the growing season. Fall-transplanted Goldmound spirea (Spiraea ×bumalda ‘Goldmound’) and Wine & Roses® weigela [Weigela florida (Bunge) A. DC. ‘Alexandra’] were grown in 2-gal (7.56 L) containers and topdressed on 7 May 2015 with Osmocote Plus 15N–3.9P–9.9K, 5–6 month CRF or Plantacote 14N–3.9P–12.5K, 6 month Homogeneous NPK with Micros. CRF was applied at rates of 1.5, 3.0, 4.5, 6.0, 7.5, and 9.0 g nitrogen (N)/pot for both species. The best plants at the end of the growing season (i.e., 23 Sept. 2015) were spirea at 3.0–4.5 and 3.0–6.0 g N/pot, and weigela at 3.0–4.5 and 6.0 g N/pot, with Osmocote and Plantacote, respectively. At CRF rates above these rates, the majority of plants showed no increase in growth or quality attributes. All weigela plants, despite CRF application rate, showed K deficiency symptoms during the study. Using marketable-size criteria and plant growth data over time, estimates of production timing are presented for fall-transplanted, spring-topdressed weigela and spirea. These estimates may assist growers in choosing CRF application rates to meet time-sensitive production goals. Early in the growing season, NO3-N and P concentrations in the growing substrate were highest at CRF rates ≥4.5 and ≥6.0 g N/pot, respectively, and P continued to be high in August and September at 9.0 g N/pot. NH3-N and K concentrations at all CRF application rates were greater early in the growing season and decreased over time. At high CRF rates toward the end of the growing season, concentrations of NO3-N, NH3-N, and P once again increased. Considering crop-specific CRF application rates and understanding changes in growing substrate nutrient status during the growing season may help nursery growers prevent negative environmental impacts from over-fertilizing.
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Chong, Calvin, Glen Lumis, Peter Purvis, and Adam Dale. "Growth and Nutrient Status of Six Species of Nursery Stock Grown in a Compost-based Medium with Recycled Nutrients." HortScience 39, no. 1 (February 2004): 60–64. http://dx.doi.org/10.21273/hortsci.39.1.60.

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Rooted cuttings of `Antonovka' apple, `Lynwood Gold' forsythia, double-flowered kerria, common ninebark, `Goldfinger' potentilla, and `Red Prince' weigela were grown in 2-gal (6-L) nursery containers filled with 1:1 (by volume) of waste compost and composted pine bark, under three fertilizer regimes: 1) liquid nutrients [target concentrations in ppm (mg.L-1): NH4-N, 13; NO3-N, 100; P, 28; K, 120; Ca, 92; Mg, 13; Fe, 1.3; Mn, 0.27; Zn, 0.23; Cu, 0.05; B, 0.22; Mo, 0.05; Na, <50; Cl, <50; and SO4 <300] delivered and recycled twice per day via a computer-controlled multifertilizer injector; 2) same nutrient formula and concentration rate delivered fresh via the injector but without recycling; and 3) Nutryon (Polyon) 17-5-12 controlled-release fertilizer incorporated into the medium at a rate of 11 lb/yd3 (6.5 kg·m-3). With recycled liquid nutrients, all species grew the same or more than with nonrecycled nutrients, and generally the poorest growth was with controlled-release fertilizer. Foliar concentrations of K (all species), N (all species), P (forsythia, kerria, potentilla, and weigela), and Mn (forsythia, potentilla, and weigela) were higher in plants supplied with recycled and/or nonrecycled nutrients than in those supplied with controlled-release fertilizer, while foliar concentrations of Ca (ninebark and kerria) and Mg (apple, kerria, ninebark, potentilla, and weigela) were lower. Compared to nonrecycled liquid nutrients, the amounts of individual recycled nutrients were reduced by (percentage in brackets): NH4-N (30), NO3-N (78), P (76), K (46), Ca (93), Mg (96), Fe (52), Mn (43), Zn (55), Cu (60), B (83), and Mo (66).
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Su, Jingwen, Pei Zhang, Xiaoya Deng, Cai Ren, Ji Zhang, Fulong Chen, and Aihua Long. "Predicting Runoff from the Weigan River under Climate Change." Applied Sciences 14, no. 2 (January 8, 2024): 541. http://dx.doi.org/10.3390/app14020541.

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With the warming and humidification process in the Northwest Arid Zone over the past 30 years, the runoff of a vast majority of rivers has been affected to different degrees. In this paper, the runoff from the Weigan River, a typical inland river in the arid zone of Northwest China, is taken as an example, and seven types of CMIP6 data are selected with the help of a SWAT model to predict the runoff volume of the Weigan River in the next 30 years under climate change. The results show that (1) the SWAT model can simulate the runoff from the Weigan River well and has good applicability in this study area. (2) With an increase in radiative forcing, the temperature, precipitation and runoff in the study area show an increasing trend. (3) Under the four radiative forcing scenarios in 2030 and 2050, the runoff from the Weigan River out of the mountain is predicted to be maintained at 25.68 to 30.89 × 108 m3, which is an increase of 1.35% to 21.91% compared with the current runoff, of which the contribution to the increase in future runoff caused by the changes in temperature and precipitation is 68.71% and 27.24%, respectively. It is important to explore the impact of climate change on the runoff from the Weigan River to understand the impact of climate change on the Northwest Arid Region scientifically and rationally, and to provide a scientific basis for evaluating the risk of climate change and formulating policies to deal with it.
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35

Andersen, Lillie, and Conny Wang Hansen. "Leaching of Nitrogen from Container Plants Grown under Controlled Fertigation Regimes." Journal of Environmental Horticulture 18, no. 1 (March 1, 2000): 8–12. http://dx.doi.org/10.24266/0738-2898-18.1.8.

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Abstract One-year-old Weigela and Campanula liners were transplanted into containers and grown outdoors for one season. Nutrient solutions with high conductivity (EC: 2.0 dS/m), intermediate conductivity (EC: 1.25 dS/m) or low conductivity (EC: 0.95 dS/m) were applied at each irrigation. The nitrogen concentrations of the solutions were 220, 110 and 55 g N/m3, respectively. Fertigation frequency was controlled by the use of tensiometers placed in the growing medium. Growth and the amount of N leached from the containers and the N content of the shoot were measured. The respective amounts of N leached from Weigela were 40, 6 or 3 kg N/ha, whereas in Campanula 88, 45 or 17 kg N/ha was leached. The recovery of nitrogen applied was between 53% to 73% in Weigela and 41% to 56% in Campanula. The amount of non-recovered nitrogen was substantially higher in treatments 1.25 dS/m and 0.95 dS/m than in 2.0 dS/m. Fresh and dry weights of both plant species and the number of flowers in Campanula were reduced when the plants were grown at low conductivity.
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36

Ravindran, S. "QnAs with Detlef Weigel." Proceedings of the National Academy of Sciences 110, no. 28 (June 24, 2013): 11216. http://dx.doi.org/10.1073/pnas.1310098110.

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37

Hu, Jun. "Lin Weigan [In Memoriam]." IEEE Microwave Magazine 16, no. 6 (July 2015): 84. http://dx.doi.org/10.1109/mmm.2015.2419915.

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38

Stoeltje. "Marta Weigle (1944-2018)." Journal of American Folklore 132, no. 525 (2019): 326. http://dx.doi.org/10.5406/jamerfolk.132.525.0326.

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39

Savenko, Alexandra V., and Susanna S. Chukuridi. "ROLE OF ABIOTIC AND BIOTIC FACTORS IN RESEARCH OF VARIETES OF WEIGELA (WEIGELA THUNB., CAPRIFOLIACEAE)." South of Russia: ecology, development 10, no. 4 (January 12, 2016): 101–10. http://dx.doi.org/10.18470/1992-1098-2015-4-101-110.

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40

MacLean, Hope. "Huichol Mythology. Robert M. Zingg , Jay C. Fikes , Phil C. Weigand , Acelia Garcia de Weigand." Journal of Anthropological Research 61, no. 2 (July 2005): 225–26. http://dx.doi.org/10.1086/jar.61.2.3630859.

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41

Chong*, Calvin, and Peter Purvis. "Raw and Composted Paper Mill Sludges and Municipal Compost in Nursery Substrates." HortScience 39, no. 4 (July 2004): 818A—818. http://dx.doi.org/10.21273/hortsci.39.4.818a.

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Silverleaf dogwood (Cornus alba L. `Argenteo-marginata'), forsythia (Forsythia × intermedia Zab. `Lynwood Gold'), and weigela (Weigela florida Bunge A.DC. `Red Prince') were grown in #2 (6-L) containers filled with 100% bark or bark mixed with 20%, 40%, or 60% (by vol.) each of raw paper mill sludge (RB group), composted paper mill sludge (CB group), a proprietory paper mill sludge-derived compost (PB group), and municipal compost (MB group). A fifth substrate group (MH) consisted of 100% hemp chips or hemp chips mixed with the same rates of municipal compost. The containers were trickle-irrigated and fertilized with a controlled-release fertilizer. Among the bark-amended groups, growth was highest for dogwood and forsythia with PB, increasing dramatically and peaking at ca. 40% rate (68 and 94 g/plant top dry weight, respectively). Growth of these species was intermediate with MB and CB and least with RB, increasing to rates ≥ 50% in these groups, except for a nonsignificant response of dogwood to RB. Growth of weigela increased equally with PB and MB substrates up to ca. 40% (117 g/plant), but was unresponsive to rates of RB and CB. With the hemp-amended MH group, growth of all three species increased to rates ≥ 50% (62, 93, and 116 g/plant for dogwood, forsythia, and weigela, respectively). Growth of the three species over most rates of all substrate groups was similar to, or exceeded, that in 80% bark: 15% peat: 5% topsoil, a proven nursery mix. Top dry weight of all three species was positively correlated with soluble salts concentrations in the substrates at planting after first irrigation (0.23-1.72 dS·m-1, range over all substrates) and at various intervals during the season.
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42

Chong, Calvin, and Peter Purvis. "Nursery crop response to substrates amended with raw paper mill sludge, composted paper mill sludge and composted municipal waste." Canadian Journal of Plant Science 84, no. 4 (October 1, 2004): 1127–34. http://dx.doi.org/10.4141/p04-031.

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Silverleaf dogwood (Cornus alba L. ‘Argenteo-marginata’), forsythia (Forsythia × intermedia Zab. ‘Lynwood Gold’), and weigela (Weigela florida Bunge A.DC. ‘Red Prince’) were grown in #2 (6-L) containers filled with 100% bark or bark mixed with 20, 40 or 60% by volume each of raw paper mill sludge (RB group), Bio Soil compost containing 100% paper mill sludge (BCB group), Waterdown compost containing 40% paper sludge, 40% chicken manure and 20% sawdust (WCB group), and municipal compost consisting of leaf and yard waste (MCB group). A fifth substrate group (MCH) consisted of 100% hemp chips or hemp chips mixed with the same rates of municipal compost. The containers were trickle-irrigated and fertilized with a controlled-release fertilizer. Regression analysis indicated that growth among the barkamended groups was highest for dogwood and forsythia with WCB, increasing dramatically and peaking at about the 40% rate (68 and 94 g plant-1 aboveground dry weight, respectively). Growth of these species was intermediate with MCB and BCB and least with RB, increasing to rates ≥ 50% in these groups. There was no significant response of dogwood to RB. Growth of weigela increased equally with WCB and MCB substrates up to about 40% (117 g plant-1), but was not influenced by varying rates of RB and BCB. With the hemp-amended MCH group, growth of all three species increased to rates ≥ 50% (62, 93, and 116 g plant-1 for dogwood, forsythia and weigela, respectively). Growth of the three species over most rates of all substrate groups was similar to, or exceeded that in 80% bark: 15% peat: 5% topsoil, a proven nursery mix. Aboveground dry weight of all three species was positively correlated with soluble salts concentrations in the substrates sampled at planting and on other sampling dates during the season. Key words: Nursery, ornamentals, waste and compost utilization
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Chong, Calvin, R. A. Cline, and D. L. Rinker. "Bark- and Peat-amended Spent Mushroom Compost for Containerized Culture of Shrubs." HortScience 29, no. 7 (July 1994): 781–84. http://dx.doi.org/10.21273/hortsci.29.7.781.

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Four deciduous ornamental shrubs [`Coral Beauty' cotoneaster (Cotoneaster dammeri C.K. Schneid); Tartarian dogwood (Cornus alba L.); `Lynwood' forsythia (Forsythia × intermedia Zab.); `Variegata' weigela (Weigela florida Bunge A.D.C.)] were grown in trickle-fertigated containers. There were eight media consisting of 25% or 50% sphagnum peat or composted pine bark, 25% sand, and the remainder one of two sources of spent mushroom compost; four media with 509″ peat or bark mixed with 50% spent mushroom compost; and a control medium of 10070 pine bark. Initially, higher than desirable salt levels in all compost-amended media were leached quickly (within 2 weeks of planting) and not detrimental to the species tested. Unlike cotoneaster, which showed no difference in growth (shoot dry weight) due to medium, dogwood, forsythia, and weigela grew significantly better in all compost-amended media than in the control. Growth of these three species was 20% greater in peat-based than in bark-based, compost-amended media. Dogwood and forsythia grew slightly more (+8%) with spent mushroom compost based primarily on straw-bedded horse manure than with one based on a blend of straw-bedded horse manure, wheat straw, and hay. The addition of sand (25%) to a mixture of 50% peat or bark and 25 % spent compost produced a medium with minimal compaction.
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44

Malyarovskaya, V. I., G. A. Soltani, and A. V. Kelina. "Phenological phases of <i>Weigela×wagneri</i> L. H. Bailey under conditions of humid subtropics in Russia." Horticulture and viticulture, no. 4 (October 5, 2023): 32–40. http://dx.doi.org/10.31676/0235-2591-2023-4-32-40.

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Weigela varieties of hybrid origin, known as Weigela hortensis (W. hortensis C.A. Mey) or <i>Weigela×wagneri</i> (W.wagneri L. H. Bailey) are cultivated on the Black Sea coast of Krasnodar Krai. A current range of this beautifully flowering shrub includes more than 150 varieties. However, only 24 grow in the region and are predominately selected in the early XX century and are rarely used in the landscaping of the resort town. Ornamental varieties of Weigela grow mostly in limited use areas (Sochi Arboretum, Subtropical Botanical Garden in Kuban region, Friendship Tree Garden Museum). The study aims at investigating the phenological phases of <i>Weigela×wagneri</i> L. H. Bailey under humid subtropical conditions of the Black Sea coast, Krasnodar Krai, to be used for the design of gardens with continuous flowering plants, as well as for breeding. The study was conducted in the period from 2013 to 2019 in the Friendship Tree Garden Museum and Subtropical Botanical Garden in Kuban region. The study involved 15 varieties of W.×wagneri. The authors established differences in phenological phases, including the start/end of growing season and flowering, duration of these periods, as well as the sums of effective temperatures required for these phases. The start of the growing season was established to vary from February 12 (Arlequin) with an accumulated sum of effective temperature of 261.2℃ to March 14 (Brictol Ruby) and a sum of temperature of 376.9℃. Differences between varieties in this phenophase account for 30 days. On the basis of the long-term average annual data, the varieties were divided into groups according to the floral initiation: early flowering (from April 14 to April 21) group included Arlequin, Gustave Malet, Mon Blanc, Newport Red, Venusta, Madame Lemoine; medium-flowering (April 22 to April 30) group included Lacepede, Ballet, Pavillon Blanc, Brictol Ruby, Madame Lemoine; Eva Ratke, Kosteriana variegata, Red Prince, Augusta were included into a late-flowering (from May 01 to May 06) group. According to the dates of the start and end of growing season, the varieties were divided into the following phenological groups: EE – Early starting (before Feb 12) and Early ending vegetation (before Dec 05); EL – Early starting (before Feb 12) and Late ending (after Dec 19); LE – Late starting (after March 4) and Early ending (before Dec 5); LL – Late starting (after March 4) and Late ending vegetation (after Dec 19).
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45

Boulineau, F., and B. Le Pautremat. "CHARACTERISATION OF A WEIGELA THUMB. COLLECTION." Acta Horticulturae, no. 508 (January 2000): 335–36. http://dx.doi.org/10.17660/actahortic.2000.508.62.

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46

Yeston, Neil S. "John A. Weigelt, DVM, MD, FCCM." Critical Care Medicine 19, no. 12 (December 1991): 1464. http://dx.doi.org/10.1097/00003246-199112000-00004.

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47

Tilford, Nicole. "Armin Lange and Matthias Weigold (eds.)." Dead Sea Discoveries 21, no. 1 (February 20, 2014): 108–9. http://dx.doi.org/10.1163/15685179-12341300.

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48

Pickering, Robert B., and Christopher S. Beekman. "A PERSONAL HOMENAJE TO PHIL WEIGAND." Ancient Mesoamerica 17, no. 2 (July 2006): 235–37. http://dx.doi.org/10.1017/s0956536106060159.

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Back in the late 1960s and early 1970s, Southern Illinois University at Carbondale was “the” place to be for anyone interested in North or West Mexican studies. J. Charles Kelley, Carroll “Cal” Riley, Campbell Pennington, and Basil Hedrick constituted the cadre of scholars who specialized in the region but also served as mentors and models for what anthropological archaeology could be, even in the pre-Binfordian days. Walter Taylor also was there as an icon of theoretical archaeology. All of these scholars not only believed but also demonstrated that the subdisciplines of anthropology were intimately connected. To pursue one perspective to the exclusion of the other subdisciplines was deemed artificially limiting. Into this milieu came Lewis and Sally Binford during the summers of 1962 and 1963, working on the Carlyle Reservoir project in southern Illinois, which included excavations at Hatchery West, Toothsome, and Galley Pond. At about the same time, they began publishing archaeological theory and methodology that revolutionized the discipline. Only Lew and Sally can say how their time in Carbondale shaped their perspectives but, for me, I'd like to think that the Carbondale experience positively influenced their interdisciplinary work. I well remember discussions with Kelley regarding the new archaeology that he learned under Clyde Kluckhohn at Harvard before and during WWII, in comparison to the other “new” archaeology championed by the Binfords. Riley, Pennington, and Hedrick provided students with opportunities to integrate the archaeological perspective with the ethnographic and historical in material culture studies. The graduate students, including Weigand, Joe Mountjoy, and others, kept the discussion alive.
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Ehrmann, Peter, and Katharina Weigand. "Rezension von: Weigand, Katharina (Hrsg.), Heimat." Württembergisch Franken 84 (May 17, 2023): 375–77. http://dx.doi.org/10.53458/wfr.v84i.5737.

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Katharina Weigand (Hrsg.), Heimat. Konstanten und Wandel im 19. Jahrhundert. Vorstellungen und Wirklichkeit. 1. Kolloquium des Alpinen Museums (Alpines Museum des Deutschen Alpenvereins, Schriftenreihe, Bd. 2), München (Bergverlag Rudolf Rother) 1997. 341 S.
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50

Chong, Calvin, and R. A. Cline. "Response of Four Ornamental Shrubs to Container Substrate Amended with Two Sources of Raw Paper Mill Sludge." HortScience 28, no. 8 (August 1993): 807–9. http://dx.doi.org/10.21273/hortsci.28.8.807.

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Four deciduous ornamental shrubs {`Coral Beauty' cotoneaster (Cotoneaster dammeri C.K. Schneid.), `Flaviramea' dogwood (Cornus sericea L.), `Lynwood' forsythia (Forsythia ×intermedia Zab.), and `Variegata' weigela [Weigela florida (Bunge) A. DC.]} were grown in trickle-irrigated containers with 100% pine bark (control) or with 10 other pine-bark-amended media, including two sources [Noranda Forest (NF) and Quebec and Ontario (QO)] of raw paper mill sludge mixed at 15 % or 30% (by volume). All species grew equally well or better in the sludge-amended media than in the control or other nonsludge media. Cotoneaster and forsythia grew more in NF sludge media than in corresponding QO media due primarily to the greater quantities of N and other nutrients released from the NF sludge.
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