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Journal articles on the topic 'Nemesia'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Zonstein, Sergei L. "New data on the spider genus Nemesia in Algeria (Araneae: Nemesiidae)." Israel Journal of Entomology 49, no. 1 (2019): 69–130. https://doi.org/10.5281/zenodo.3592368.

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Based on the spider collection of the Mus&eacute;um national d&rsquo;Histoire naturelle, Paris, the data on the poorly known Algerian representatives of <em>Nemesia</em> Audouin, 1826 are renewed. Twelve species of <em>Nemesia</em> were recognized among the studied material. The following six new species are described:<em> N. algerina</em> n. sp. (♂♀), <em>N. almoravida</em> n. sp. (♂♀), <em>N. annaba</em> n. sp. (♂♀), <em>N. decaei</em> n. sp. (♂♀), <em>N. dido</em> n. sp. (♀) and <em>N. tanit</em> n. sp. (♀). <em>Nemesia</em><em> dorthesi</em> Thorell, 1875 is recorded within Algeria for the
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2

Pertegal, Cristian, and Ginés Rodriguez-Castilla. "The role of the burrow structure in the characterisation of trap door spiders Nemesia Audouin, 1826 (Araneae, Mygalomorphae)." Graellsia 80, no. 1-2 (2024): e755. https://doi.org/10.3989/graellsia.2024.v80.755.

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Three new species of the trap-door spider genus Nemesia Audouin, 1826 are described from southern Portugal, namely Nemesia bonali sp. nov. from Portimão and Alvor, Nemesia molerobaltanasi sp. nov. from Castelão (Loulé), and Nemesia rebellis sp. nov. from Odeleite. These species have specific morphological and/or behavioural similarities with N. athiasi Franganillo, 1920, N. fagei Frade &amp; Bacelar, 1931, and N. ungoliant Decae, Cardoso &amp; Selden, 2007, but are easily distinguishable if attention is paid to all details including the size, the prosoma shape and the burrow structure. The ava
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3

Pertegal, Cristian, and Ginés Rodríguez-Castilla. "The role of the burrow structure in the characterisation of trap door spiders Nemesia Audouin, 1826 (Araneae, Mygalomorphae)." Graellsia 80, no. 1-2 (2024): e755 [22 pp.]. https://doi.org/10.3989/graellsia.2024.v80.755.

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Three new species of the trap-door spider genus <em>Nemesia</em> Audouin, 1826 are described from southern Portugal, namely <em>Nemesia bonali</em> sp. nov. from Portim&atilde;o and Alvor, <em>Nemesia molerobaltanasi</em> sp. nov. from Castel&atilde;o (Loul&eacute;), and <em>Nemesia rebellis</em> sp. nov. from Odeleite. These species have specific morphological and/or behavioural similarities with <em>N. athiasi</em> Franganillo, 1920, <em>N. fagei</em> Frade &amp; Bacelar, 1931, and <em>N. ungoliant</em> Decae, Cardoso &amp; Selden, 2007, but are easily distinguishable if attention is paid to
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4

BESTER, STOFFEL P., and HESTER M. STEYN. "Nemesia arenifera (Scrophulariaceae), a new species from the Sandveld, Northern Cape Province, South Africa, and the ectotypification of N. viscosa." Phytotaxa 126, no. 1 (2013): 49. http://dx.doi.org/10.11646/phytotaxa.126.1.6.

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Nemesia arenifera is described as a new species that has been overlooked since 1904. The name Nemesia viscosa was misapplied to specimens from the Namaqualand coast that was considered a coastal form of N. viscosa. Nemesia arenifera is a common and widespread plant on sandy soils in the coastal zone of Namaqualand, Northern Cape, while N. viscosa is only known from the original two gatherings made from one location in the Richtersveld, Northern Cape. The new species differs from N. viscosa and N. rupicola in habit, leaf and fruit shape, and by the orientation of the spur, which is similar to t
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5

Siebert, S. J., and A. E. Van Wyk. "SCROPHULARIACEAE." Bothalia 35, no. 1 (2005): 69–71. http://dx.doi.org/10.4102/abc.v35i1.372.

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6

Faust, James E., and Larry W. Grimes. "Cutting Production Is Affected by Pinch Number during Scaffold Development of Stock Plants." HortScience 39, no. 7 (2004): 1691–94. http://dx.doi.org/10.21273/hortsci.39.7.1691.

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Stock plants of four vegetatively propagated annual species (Argyranthemum frutescens `Comet Pink', Nemesia fruticans `Plum Sachet' Venten., Osteospermum fruticosum `Zulu' L., and Verbena ×hybrida `Lanai Bright Pink' L.) were grown with one (P), two (PP), or three (PPP) pinches during the scaffold development phase. The number of pinches applied to all four species affected the yield and distribution of cuttings produced over time. P began to produce cuttings first; however, the rate (number of cuttings per week) of cutting production was relatively low resulting in the fewest total cuttings p
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7

Hijós, Nemesia. "Apuntes bibliográficos para acercarnos a la pregunta por el género en el deporte." Cuestiones de sociología, no. 18 (May 22, 2018): e059. http://dx.doi.org/10.24215/23468904e059.

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8

Majul, Débora. "Etnografiando deportes en clave de género. JULIA HANG, NEMESIA HIJÓS, VERÓNICA MOREIRA. Deporte y Etnografía. Pensar la investigación social entre los géneros." FEMERIS: Revista Multidisciplinar de Estudios de Género 7, no. 3 (2022): 107–9. http://dx.doi.org/10.20318/femeris.2022.7156.

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9

SOSA VASQUEZ, MARIA MONICA. "HANG, Julia, HIJÓS, Nemesia y MOREIRA, Veronica (Comps.) (2021) Deporte y etnografía. Pensar la investigación entre los géneros, Buenos Aires, Editorial Gorla, 265 pp." Zona Franca, no. 30 (December 22, 2022): 564–68. http://dx.doi.org/10.35305/zf.vi30.230.

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10

Zonstein, Sergei L. "Notes on Nemesia and Iberesia in the J. Murphy spider collection of the Manchester Museum (Araneae: Nemesiidae)." Israel Journal of Entomology 47 (November 30, 2017): 141–58. https://doi.org/10.5281/zenodo.1068674.

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Representatives of the genera <em>Nemesia</em> Audouin, 1826 and <em>Iberesia</em> Decae &amp; Car&shy;doso, 2006 deposited in the John Murphy spider collection of the Manchester Mu&shy;seum (University of Manchester, UK) have been re-examined. This part of the collection is found to include ten species of <em>Nemesia</em> and one member of <em>Ibe&shy;resia</em>.<em> </em>Males of <em>N. </em><em>santeulalia</em> Decae, 2005<em> </em>and <em>N.</em><em> seldeni</em> Decae, 2005, unknown hi&shy;therto, are described for the first time. Additional data on the structures and dis&shy;tribution of
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11

El-Nashar, Yasser Ismail, Badreya A. Hassan, and Eman M. Aboelsaadat. "Response of Nemesia (Nemesia × hybridus) plants to different irrigation water sources and arbuscular mycorrhizal fungi inoculation." Agricultural Water Management 243 (January 2021): 106416. http://dx.doi.org/10.1016/j.agwat.2020.106416.

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12

Santos Ortega, Antonio, and Kety Balibrea Melero. "Hijós, Nemesia (2021) Runners: una etnografía en una plataforma de entrenamiento de Nike. Buenos Aires: Editorial Gorla." Sociología del Deporte 3, no. 1 (2022): 83–86. http://dx.doi.org/10.46661/socioldeporte.6872.

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13

Medina-Vicent, Maria. "Runners. Una etnografía en una plataforma de entrenamiento de Nike, por Nemesia Hijós." Quaderns de Filosofia 10, no. 2 (2023): 179. http://dx.doi.org/10.7203/qfia.10.2.27258.

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14

Korobko, Alina. "Evaluation Of Flower Decorative Plants Cultivars Of Nemesia Vent In The Conditions Of Podillia." Scientific Horizons 24, no. 2 (2021): 99–107. http://dx.doi.org/10.48077/scihor.24(2).2021.99-107.

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Due to the lack of information about biomorphological features and cultivation technology of species of the genus Nemesia Vent they are still rarely found on the territory of Ukraine and thus are of great interest for cultivation and use for the design of flower beds. The purpose of the scientific work was to analyse the current world assortment of the genus Nemesia Vent, as well as to study the features of flowering, reproductive ability, agrotechnics of growing cultivars of nemesia strumosa, and assess the prospects of their use in decorative gardening in Ukraine. During the research of neme
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15

Guy, P. L. "First Report of Nemesia ring necrosis virus in Australasia in Nemesia and Verbena Plants from New Zealand." Plant Disease 101, no. 8 (2017): 1558. http://dx.doi.org/10.1094/pdis-02-17-0160-pdn.

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16

Hutchinson, Veronica A., Christopher J. Currey, and Roberto G. Lopez. "Photosynthetic Daily Light Integral During Root Development Influences Subsequent Growth and Development of Several Herbaceous Annual Bedding Plants." HortScience 47, no. 7 (2012): 856–60. http://dx.doi.org/10.21273/hortsci.47.7.856.

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Vegetatively propagated bedding plants are produced during the late winter and early spring when outdoor photosynthetic daily light integral (DLI) is low, especially in northern latitudes. Our objective was to quantify how propagation DLI influences subsequent growth and development of annual bedding plants. Cuttings of Angelonia angustifolia Benth. ‘AngelMist White Cloud’, Nemesia fruticans (Thunb.) Benth. ‘Aromatica Royal’, Osteospermum ecklonis (DC.) Norl. ‘Voltage Yellow’, and Verbena ×hybrida Ruiz ‘Aztec Violet’ were harvested and propagated in a glass-glazed greenhouse. After callusing (
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17

Bester, S. P. "Towards a taxonomic revision of Nemesia Vent." South African Journal of Botany 115 (March 2018): 316. http://dx.doi.org/10.1016/j.sajb.2018.02.147.

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18

Labrousse, Pascal, David Delmail, Raphaël Decou, Michel Carlué, Sabine Lhernould, and Pierre Krausz. "Nemesia Root Hair Response to Paper Pulp Substrate for Micropropagation." Scientific World Journal 2012 (2012): 1–7. http://dx.doi.org/10.1100/2012/859243.

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Agar substrates forin vitroculture are well adapted to plant micropropagation, but not to plant rooting and acclimatization. Conversely, paper-pulp-based substrates appear as potentially well adapted forin vitroculture and functional root production. To reinforce this hypothesis, this study comparesin vitrodevelopment of nemesia on several substrates. Strong differences between nemesia roots growing in agar or in paper-pulp substrates were evidenced through scanning electron microscopy. Roots developed in agar have shorter hairs, larger rhizodermal cells, and less organized root caps than thos
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19

Starman, Terri W., Shannon E. Beach, and Kristen L. Eixmann. "Postharvest Decline Symptoms after Simulated Shipping and During Shelf Life of 21 Cultivars of Vegetative Annuals." HortTechnology 17, no. 4 (2007): 544–51. http://dx.doi.org/10.21273/horttech.17.4.544.

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Twenty-one cultivars from nine species of vegetative annuals were grown under optimum greenhouse production practices until maturity. At harvest, they were subjected to 0, 1, or 2 days of simulated shipping. After shipping, plants were rated for quality, and flower abscission was counted postship and weekly for 3 weeks in a simulated retail environment. There were few decreases in flower number and quality directly postship, but decline symptoms became evident as time lapsed in the postharvest environment. Flower abscission resulting from increased shipping duration occurred on ‘Sun Chimes Cor
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20

Decae, Arthur, Paolo Pantini, and Marco Isaia. "A new species-complex within the trapdoor spider genus Nemesia Audouin 1826 distributed in northern and central Italy, with descriptions of three new species (Araneae, Mygalomorphae, Nemesiidae)." Zootaxa 4059, no. 3 (2015): 525–40. https://doi.org/10.11646/zootaxa.4059.3.5.

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Decae, Arthur, Pantini, Paolo, Isaia, Marco (2015): A new species-complex within the trapdoor spider genus Nemesia Audouin 1826 distributed in northern and central Italy, with descriptions of three new species (Araneae, Mygalomorphae, Nemesiidae). Zootaxa 4059 (3): 525-540, DOI: 10.11646/zootaxa.4059.3.5
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21

Bester, Stoffel P., and Hester M. Steyn. "Nemesia arenifera (Scrophulariaceae), a new species from the Sandveld, Northern Cape Province, South Africa, and the lectotypification of N. viscosa." Phytotaxa 126, no. 1 (2013): 49–54. https://doi.org/10.11646/phytotaxa.126.1.6.

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Bester, Stoffel P., Steyn, Hester M. (2013): Nemesia arenifera (Scrophulariaceae), a new species from the Sandveld, Northern Cape Province, South Africa, and the lectotypification of N. viscosa. Phytotaxa 126 (1): 49-54, DOI: 10.11646/phytotaxa.126.1.6, URL: http://dx.doi.org/10.11646/phytotaxa.126.1.6
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22

Steiner, K. E. "Two new species of Nemesia (Scrophulariaceae) from arid areas of the Northern Cape, South Africa." Bothalia 39, no. 1 (2009): 67–72. http://dx.doi.org/10.4102/abc.v39i1.230.

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Two new annual species of Nemesia Vent, are described from southern Africa. Nemesia suaveolens is characterized by magenta and yellow flowers. It differs from the closely related N. euryceras by having a lower lip that is yellow rather than white with pale violet margins, an upper lip with a conspicuous yellow rectangular patch just above the corolla opening, a spur that is ± equal to the length of the lower lip, not half the length, and a hypochile that is yellow rather than dark violet.This new species is known only from the arid Tanqua Karoo east of the Cedarberg Mountains. N. aurantia is c
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23

Steiner, K. E. "Two new species of Nemesia (Scrophulariaceae) from the southern Cape, South Africa." Bothalia 40, no. 2 (2010): 161–66. http://dx.doi.org/10.4102/abc.v40i2.206.

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Two new species of Nemesia Vent, are described from South Africa. Nemesia fourcadei is an annual with small white flowers, a yellow-orange pubescent palate, and violet lines at the base of the upper lip. It differs from the similar looking N. lucida Benth. by having larger flowers with a more prominent spur (mostly 3.5—4.5 mm long vs 1.5 mm) and a pubescent palate. N. fourcadei is known from only two locations in the southern Cape. N. elata is a facultative perennial with white flowers, a lavender to purple reverse, and a white or very pale yellow palate. It is known only from the Langeberg an
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24

Cassar, Thomas, David Mifsud, and Arthur E. Decae. "The Nemesia trapdoor spider fauna of the Maltese archipelago, with the description of two new species (Araneae, Mygalomorphae, Nemesiidae)." European Journal of Taxonomy 806, no. 1 (2022): 90–112. https://doi.org/10.5852/ejt.2022.806.1705.

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Cassar, Thomas, Mifsud, David, Decae, Arthur E. (2022): The Nemesia trapdoor spider fauna of the Maltese archipelago, with the description of two new species (Araneae, Mygalomorphae, Nemesiidae). European Journal of Taxonomy 806 (1): 90-112, DOI: 10.5852/ejt.2022.806.1705, URL: http://zoobank.org/4991ba30-038f-4b86-983b-e4e738c56759
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25

Beach, Shannon E., Terri W. Starman, Kristen L. Eixmann, H. Brent Pemberton, and Kevin M. Heinz. "Reduced End-of-production Fertilization Rate Increased Postproduction Shelf Life of Containerized Vegetative Annuals." HortTechnology 19, no. 1 (2009): 158–67. http://dx.doi.org/10.21273/hortsci.19.1.158.

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Twenty-one cultivars of vegetative annuals were treated with 0%, 50%, or 100% of the production fertilization rate of 300 mg·L−1 N starting 2 weeks before and continuing until harvest. At harvest, plant width, flower number, and quality rating were measured. The plants were then placed in a simulated interior environment where flower number was counted and quality rating was assigned to each plant weekly for 3 weeks. Overall, 14% of the cultivars maintained a marketable quality (i.e., quality rating of ≥3.0 of 5) for 3 weeks, 43% for 2 weeks, 38% for 1 week, and one cultivar did not maintain q
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26

Beach, Shannon E., Terri W. Starman, Kristen L. Eixmann, H. Brent Pemberton, and Kevin M. Heinz. "Reduced End-of-production Fertilization Rate Increased Postproduction Shelf Life of Containerized Vegetative Annuals." HortTechnology 19, no. 1 (2009): 158–67. http://dx.doi.org/10.21273/horttech.19.1.158.

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Twenty-one cultivars of vegetative annuals were treated with 0%, 50%, or 100% of the production fertilization rate of 300 mg·L−1 N starting 2 weeks before and continuing until harvest. At harvest, plant width, flower number, and quality rating were measured. The plants were then placed in a simulated interior environment where flower number was counted and quality rating was assigned to each plant weekly for 3 weeks. Overall, 14% of the cultivars maintained a marketable quality (i.e., quality rating of ≥3.0 of 5) for 3 weeks, 43% for 2 weeks, 38% for 1 week, and one cultivar did not maintain q
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27

Mathews, D. M., and J. A. Dodds. "First Report of Angelonia flower break virus in Nemesia spp. and Other Ornamental Plants in California." Plant Disease 92, no. 4 (2008): 651. http://dx.doi.org/10.1094/pdis-92-4-0651b.

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Between June 2006 and July 2007, ornamental plant samples were collected from four counties in California (Riverside, Sacramento, San Diego, and Santa Barbara) and tested for the presence of Angelonia flower break virus (AnFBV) using ELISA (Agdia, Inc., Elkhart, IN). Tissue samples were from propagation facilities or wholesale outlets except those from Riverside County, which were from retail stores. Thirteen positive samples were found in three varieties each of Angelonia and Nemesia spp. and seven varieties of Verbena spp., with at least one positive from each county. Foliar symptoms ranged
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28

TOMIOKA, Keisuke, Toyozo SATO, and Hiroki KOGANEZAWA. "Anthracnose of Nemesia strumosa Caused by Colletotrichum fuscum." Journal of General Plant Pathology 67, no. 2 (2001): 111–15. http://dx.doi.org/10.1007/pl00012996.

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29

Decae, A.E. "Two new trapdoor spider species in the genus Nemesia Audouin, 1827 and the first report of this genus from Greece (Araneae, Mygalomorphae, Nemesiidae)." Deinsea 2 (November 30, 1995): 1–8. https://doi.org/10.5281/zenodo.1067588.

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The trapdoor spider genus <em>Nemesia </em>Audouin, 1827 is widely spread in southern Europe from Portugal to Roumania, but it has up to date never been reported from Greece. Here two new species <em>N. daedali </em>and <em>N. caranhaci </em>are described from Crete. Information on the burrow structure and natural history is given for both species.
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30

Steiner, Kim E. "A new perennial Nemesia (Scrophulariaceae) from the western Cape." South African Journal of Botany 55, no. 4 (1989): 405–8. http://dx.doi.org/10.1016/s0254-6299(16)31163-2.

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31

Marco, Andrés, Elisabet Deig, Josep Cadafalch, Montserrat Fuster, Inmaculada Valls, and Enric Pedrol. "Interacciones clínicas y farmacocinéticas entre metadona y nelfinavir (estudio Nemesia)." Medicina Clínica 127, no. 2 (2006): 47–49. http://dx.doi.org/10.1157/13089988.

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32

Palagia, Olga, and David Lewis. "The Ephebes of Erechtheis, 333/2 B.C. and their dedication." Annual of the British School at Athens 84 (November 1989): 333–44. http://dx.doi.org/10.1017/s0068245400021018.

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Names on the Rhamnous base IG II23105 (with new fragments added by Petrakos, A.E. 1979 68–9) are conjoined with those on IG II22401. 2401 is identified as an ephebe list of Erechtheis for 333/2. The attribution of the names to the various demes is discussed. The base itself goes with the fragmentary herm, NM 313, which is thus the earliest securely dated ephebic dedication at Rhamnous. The relationship of this to other monuments is discussed. It is suggested from this, that the ephebes of 333/2 were competing in the Nemesia.
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33

Lajos, Lilla, and Edit Vadkerti. "A magyar aknászpók (Nemesia pannonica Herman, 1879) szezonalitás­ és társulás­preferencia vizsgálata a Szársomlyón." Natura Somogyiensis, no. 10 (2007): 127—­133. http://dx.doi.org/10.24394/natsom.2007.10.127.

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In 1999, Nemesia pannonica was the dominant species on the South side of the Szársomolyó Hill both in annual average and each trapping periods. During spring and autumn the adult male showed activity peaks, while in the middle of the summer they were inactive. The juvenile specimens were found throughout the whole year. N. pannonica preferred each habitats different ways. The highest activity was found on the bottom of the hill while it decreased towards to the top. The species was rare on the North side. With 3 figures and 1 table.
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34

Steiner, K. E. "Two new species of Nemesia (Scrophulariaceae) from southern Africa." Bothalia 36, no. 1 (2006): 39–44. http://dx.doi.org/10.4102/abc.v36i1.330.

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Two new annual species of Nemesia Vent, are described from southern Africa. N. williamsonii is characterized by bright orange flowers with an inflated yellow palate. It differs from the related N. maxii Hiern by having a spur that projects backwards, not downwards, and bracts that are lanceolate with a truncate base, not triangular or cordate. It is unusual for the genus in having dimorphic seeds. N. williamsonii occurs almost exclusively in the Richtersveld. but has been collected in a few localities across the Orange River in southern Namibia. N. hemiptera is a delicate, wiry-stemmed annual
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35

Datson, Paul M., Brian G. Murray, and Keith R. W. Hammett. "Pollination systems, hybridization barriers and meiotic chromosome behaviour in Nemesia hybrids." Euphytica 151, no. 2 (2006): 173–85. http://dx.doi.org/10.1007/s10681-006-9138-z.

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36

Blasco Feliu, Amadeu. "Les spermathèques des Nemesia (Araneae, Ctenizidae); valeur taxonomique de ce caractère." Bulletin du Muséum national d'histoire naturelle 8, no. 2 (1986): 343–50. http://dx.doi.org/10.5962/p.326697.

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37

Starman, Terri W., Melissa C. Robinson, and Kristen L. Eixmann. "Efficacy of Ethephon on Vegetative Annuals." HortTechnology 14, no. 1 (2004): 83–87. http://dx.doi.org/10.21273/horttech.14.1.0083.

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Plant response to ethephon treatment was tested on 27 cultivars of vegetative annuals that have spreading and trailing growth habits. A control treatment was compared to 500 and 1000 mg·L-1 (ppm) foliar spray treatments of ethephon. Plant height and/or width index were significantly reduced for 81% of the cultivars tested. Responsive cultivars were alternanthera (Alternanthera dentata), brachyscome (Brachyscome iberidifolia) `Toucan Tango'; calibrachoa (Calibrachoa hybrids) `Colorburst Red', `Million Bells Cherry Pink', and `Trailing Pink'; diascia (Diascia × hybrida) `Sunchimes Rose' and `Red
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38

Skelton, A. L., B. Jarvis, R. Koenig, D. E. Lesemann, and R. A. Mumford. "Isolation and identification of a novel tymovirus from Nemesia in the UK." Plant Pathology 53, no. 6 (2004): 798. http://dx.doi.org/10.1111/j.1365-3059.2004.01091.x.

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39

Steiner, K. E. "A new Nemesia from the interior of the southern Cape, South Africa." South African Journal of Botany 60, no. 4 (1994): 211–13. http://dx.doi.org/10.1016/s0254-6299(16)30615-9.

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40

Datson, P. M., B. G. Murray, and K. E. Steiner. "Climate and the evolution of annual/perennial life-histories in Nemesia (Scrophulariaceae)." Plant Systematics and Evolution 270, no. 1-2 (2007): 39–57. http://dx.doi.org/10.1007/s00606-007-0612-4.

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Currey, Christopher J., Veronica A. Hutchinson, and Roberto G. Lopez. "Growth, Morphology, and Quality of Rooted Cuttings of Several Herbaceous Annual Bedding Plants Are Influenced by Photosynthetic Daily Light Integral During Root Development." HortScience 47, no. 1 (2012): 25–30. http://dx.doi.org/10.21273/hortsci.47.1.25.

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Cuttings of herbaceous annual bedding plants must be rooted in late winter and early spring when ambient outdoor photosynthetic daily light integrals (DLIs) are at seasonally low levels. We evaluated the effect of DLI during root development on growth, morphology, and quality of nine popular vegetatively propagated annual bedding plant species. Cuttings of Angelonia angustifolia Benth. ‘AngelMist White Cloud’, Argyranthemum frutescens (L.) Sch. Bip. ‘Madeira Cherry Red’, Diascia barberae Hook. f. ‘Wink Coral’, Lantana camara L. ‘Lucky Gold’, Nemesia fruticans (Thunb.) Benth. ‘Aromatica Royal’,
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Vaid, Tasneem M., Erik S. Runkle, and Jonathan M. Frantz. "Mean Daily Temperature Regulates Plant Quality Attributes of Annual Ornamental Plants." HortScience 49, no. 5 (2014): 574–80. http://dx.doi.org/10.21273/hortsci.49.5.574.

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In protected environments, temperature is often regulated to produce ornamental crops for specific market dates. Temperature primarily controls plant developmental rate and thus production time, but it can also interact with light quantity to affect crop quality attributes such as flower number, branching, and biomass accumulation. We quantified how mean daily temperature (MDT) between 14 and 26 °C influenced quality characteristics of 15 common bedding plant crops. American marigold (Tagetes erecta), cup flower (Nierembergia caerulea), diascia (Diascia barberae), flowering tobacco (Nicotiana
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Kaitera, Juha, and Ritva Hiltunen. "New alternate hosts for the rusts Cronartium ribicola and Cronartium flaccidum in Finland." Canadian Journal of Forest Research 42, no. 9 (2012): 1661–68. http://dx.doi.org/10.1139/x2012-039.

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We explored the potential of the North European flora and some garden plants growing naturally outside Europe to support a reservoir of pine stem rusts. Live plants and detached leaves of 35 species in 16 families (Solanaceae, Verbenaceae, Grossulariaceae, Paeoniaceae, Balsaminaceae, Gentianaceae, Scrophulariaceae, Loasaceae, Tropaeolaceae, Acanthaceae, Myricaceae, Phrymaceae, Plantaginaceae, Orobanchaceae, Apocynaceae, and Fagaceae) were inoculated in the greenhouse and (or) laboratory with aeciospores of Cronartium ribicola J.C. Fisch. and Cronartium flaccidum (Alb. &amp; Schwein) G. Winter
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Pertegal, Cristian, and Manuel Pinilla Rosa. "Una nueva araña trampera, Nemesia hesperides sp. nov. (Araneae: Mygalomorphae: Nemesiidae), de un jardín doméstico." Graellsia 79, no. 2 (2023): e202. http://dx.doi.org/10.3989/graellsia.2023.v79.387.

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Los jardines domésticos pueden actuar como refugios para la biodiversidad de los artrópodos. Aquí se describe una nueva especie de araña trampera conocida únicamente de un jardín doméstico. Nemesia hesperides sp. nov. construye un nido sencillo con una tapadera formada por una fina capa de seda, característica que comparte con otras especies con morfología similar, como son N. dorthesi Thorell, 1875, N. entinae Calvo &amp; Pagán, 2022, N. santeugenia Decae, 2005, N. santeulalia Decae, 2005 y N. shenlongi Pertegal et al., 2022. Su presencia en un jardín gestionado de manera ecológica frente a s
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Pertegal, Cristian, and Pinilla Rosa Manuel. "Una nueva araña trampera, Nemesia hesperides sp. nov. (Araneae: Mygalomorphae: Nemesiidae), de un jardín doméstico." Graellsia 79, no. 2 (2023): e202 [12 pp.]. https://doi.org/10.3989/graellsia.2023.v79.387.

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Los jardines domésticos pueden actuar como refugios para la biodiversidad de los artrópodos. Aquí se describe una nueva especie de araña trampera conocida únicamente de un jardín doméstico. <i>Nemesia hesperides</i> sp. nov. construye un nido sencillo con una tapadera formada por una fina capa de seda, característica que comparte con otras especies con morfología similar, como son <i>N. dorthesi</i> Thorell, 1875, <i>N. entinae</i> Calvo &amp; Pagán, 2022, <i>N. santeugenia</i> Decae, 2005, <i>N. santeulalia</i> Decae, 2005 y <i>N. shenlongi</i> Pertegal et al., 2022. Su presencia en un jardín
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Cui, Min-Long, and Hiroshi Ezura. "Agrobacterium-mediated transformation of Nemesia strumosa Benth, a model plant for asymmetric floral development." Plant Science 165, no. 4 (2003): 863–70. http://dx.doi.org/10.1016/s0168-9452(03)00285-1.

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Mathews, D. M., and J. A. Dodds. "First Report of Nemesia ring necrosis virus in North America in Ornamental Plants from California." Plant Disease 90, no. 9 (2006): 1263. http://dx.doi.org/10.1094/pd-90-1263c.

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During the last several years, two California propagators have detected what was believed to be the tymovirus Scrophularia mottle virus (ScrMV) in several ornamental plant species on the basis of enzyme-linked immunosorbent assay (ELISA) using a ScrMV antibody system. Symptoms were generally mild, ranging from nonsymptomatic to a mild mosaic. Our laboratory confirmed the presence of a tymovirus in one Verbena sp. and two Diascia spp. cultivars on the basis of dsRNA analysis that showed bands of approximately 6,400 and 300 nucleotides representing the genomic and coat protein subgenomic RNAs, r
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Dhatt, K. K. "Impact of Storage Temperature and Packaging on Seed Germination and Viability of Nemesia strumosa Benth." Applied Biological Research 20, no. 2 (2018): 146. http://dx.doi.org/10.5958/0974-4517.2018.00019.8.

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Datson, Paul M., and Brian G. Murray. "Ribosomal DNA locus evolution in Nemesia: transposition rather than structural rearrangement as the key mechanism?" Chromosome Research 14, no. 8 (2006): 845–57. http://dx.doi.org/10.1007/s10577-006-1092-z.

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Szmatona-Túri, Tünde, Diána Vona-Túri, and Gábor Magos. "A Déli-Mátrában végzett gyepkezelési eljárások hatása a magyar aknászpók (Nemesia pannonica Herman, 1879) abundanciájára." Természetvédelmi Közlemények 23 (2017): 118–26. http://dx.doi.org/10.20332/tvk-jnatconserv.2017.23.118.

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