Academic literature on the topic 'Nelumbo lutea'

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Journal articles on the topic "Nelumbo lutea"

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Sayre, Jeff. "Propagation Protocol for American Lotus ( Nelumbo lutea Willd.)." Native Plants Journal 5, no. 1 (2004): 14–17. http://dx.doi.org/10.1353/npj.2004.0017.

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Schubert, Peter, Jutta Lorenz, and Dirk Ullrich. "Lotosblumen (Nelumbo Adans.) im heimischen Gartenteich?" Der Palmengarten 66, no. 2 (June 4, 2018): 126–35. http://dx.doi.org/10.21248/palmengarten.391.

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Der indische (Nelumbo nucifera) und der amerikanische Lotos (Nelumbo lutea) sind außerordentlich attraktive Wasserpflanzen. Nelumbo nucifera hat hohen Symbolwert in den südostasiatischen Kulturen, wird in Asien aber auch als Nahrungspflanze sehr geschätzt. Die Oberfläche der Blätter hat wichtige Hinweise zur Entwicklung selbstreinigender Oberflächen von Kunststoffen und Lacken geliefert. Weil für die Blütenentwicklung Sommertemperaturen über 20 °C notwendig sind, ist Lotos im Freiland mitteleuropäischer Gärten kaum zu finden. Wenn man jedoch bestimmte Kulturmaßnahmen beachtet, ist seine Freilandkultur in sommerwarmen Gebieten Deutschlands durchaus zu empfehlen. Davon konnte man sich in den letzten Jahren im Botanischen Garten in Mainz und im Palmengarten in Frankfurt überzeugen.
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Dieringer, Gregg, R. Leticia Cabrera, and Mohammad Mottaleb. "Ecological relationship between floral thermogenesis and pollination in Nelumbo lutea (Nelumbonaceae)." American Journal of Botany 101, no. 2 (February 2014): 357–64. http://dx.doi.org/10.3732/ajb.1300370.

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Fu, Jie, Qiaoyan Xiang, Xianbao Zeng, Mei Yang, Ying Wang, and Yanling Liu. "Assessment of the Genetic Diversity and Population Structure of Lotus Cultivars Grown in China by Amplified Fragment Length Polymorphism." Journal of the American Society for Horticultural Science 136, no. 5 (September 2011): 339–49. http://dx.doi.org/10.21273/jashs.136.5.339.

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To assess the genetic diversity among lotus (Nelumbo) accessions and evaluate the correlation between genetic variation and morphological classification, we sampled 138 accessions: two of N. lutea, 112 of N. nucifera, 17 of hybrids between N. nucifera and N. lutea, and seven Japanese cultivars. The 11 selected combinations of amplified fragment length polymorphism (AFLP) primers produced 138 polymorphic loci, and the percentage of polymorphism was 28.7%. The unweighted pair group method with arithmetic mean (UPGMA) dendrogram clustered all the accessions into two groups: Group I comprised N. lutea and its hybrids with N. nucifera; Group II included N. nucifera and its hybrids with N. lutea and Japanese cultivars. Population structure analysis identified four main clusters: N. lutea clustered mainly in C1, whereas N. nucifera clustered in C2, C3, and C4, which was consistent with the UPGMA and principal coordinate analysis results. The Japanese cultivars were related more closely to N. nucifera (genetic similarity coefficient = 0.74) than to N. lutea (0.46); hence, the Japanese cultivars can be classified as N. nucifera. Moreover, rhizome lotuses formed a separate subclade, whereas seed lotuses were interspersed among flower lotuses, which demonstrated that rhizome lotuses were distinct from flower and seed lotuses. Plant size, flower color, and other morphological criteria used commonly to classify lotuses were correlated with genetic variation to a certain extent but not sufficiently for accurate classification. It appears that it is necessary to use both DNA markers and morphological characteristics to classify lotus species and cultivars.
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Francko, David A. "Studies on Nelumbo lutea (Willd.) pers. I. Techniques for axenic liquid seed culture." Aquatic Botany 26 (January 1986): 113–17. http://dx.doi.org/10.1016/0304-3770(86)90009-4.

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Tian, Daike, Ken M. Tilt, Jeff L. Sibley, Fenny Dane, and Floyd M. Woods. "Response of Lotus (Nelumbo sp.) to Container Soil Volume." Journal of Environmental Horticulture 27, no. 2 (June 1, 2009): 79–84. http://dx.doi.org/10.24266/0738-2898-27.2.79.

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Abstract The effect of soil volume on containerized lotus (Nelumbo) production has been underreported. American lotus (Nelumbo lutea Willd.) and three cultivars (‘Embolene’, ‘98 Seed’ and ‘Karizma’) of Asian lotus (N. nucifera Gaertn.) were investigated for growth response to container soil volume in this study. Electrical conductivity, pH, plant growth indices, and plant nutritional content were influenced by container soil volume. Differences in some plant growth indices were significant between treatments with ½ and higher (½ and ¾) container height soil (CHS) in 21 or 29 liter (#5 or #7) containers. However, plant growth indices were generally not different between treatments with ½ and ¾ CHS. Lotus planted in containers with ¼ CHS usually produced the greatest plant height and underground fresh weight, while the largest number of propagules often occurred in containers with ½ or ¾ CHS. The highest number of emerging leaves was observed in plants with ¼ or ½ CHS treatments, with no significant difference in emerging leaf number between lotus grown in containers with ½ and ¾ CHS. Flower number generally decreased as soil level increased. The ¼ and ½ CHS were more efficient than ¾ CHS for lotus production in containers.
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Kubo, Nakao, Masashi Hirai, Akio Kaneko, Daizo Tanaka, and Kumaji Kasumi. "Classification and diversity of sacred and American Nelumbo species: the genetic relationships of flowering lotus cultivars in Japan using SSR markers." Plant Genetic Resources 7, no. 03 (May 1, 2009): 260–70. http://dx.doi.org/10.1017/s1479262109356580.

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The water lotus, genusNelumbo, contains two species, the sacred (Nelumbo nucifera) and American lotuses (Nelumbo lutea). Hundreds of flowering lotus cultivars are currently known. However, their classification is unclear. For the classification ofNelumbocultivars, in addition to 35 simple sequence repeat (SSR) markers recently developed, we have developed 17 and 16 of newNelumboSSR markers from SSR-enriched genomic libraries and expressed sequence tag (EST) data, respectively. Out of these 68 SSRs, along with SSRs recently published by others, 52 showed clear polymorphisms in 98Nelumbosamples. A total of 300 alleles were observed, ranging from 2 to 11 alleles per locus, with an average of 5.77. Alleles specific for the American lotus-derived cultivars and a cluster of the American lotus-derived cultivars on a neighbour-joining tree confirmed genetic differences betweenN. luteaandN. nucifera. In addition, a possible differentiation between Chinese and Japanese cultivars was also suggested. Parentage analysis using the SSR markers confirmed four known parentages and predicted currently-unknown parentages of six cultivars. The present data have demonstrated that site-specific, co-dominant SSR markers enable more accurate classification, identification and comparison ofNelumbospecies.
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Zhang, Dasheng, Qing Chen, Qingqing Liu, Fengluan Liu, Lijie Cui, Wen Shao, Shaohua Wu, Jie Xu, and Daike Tian. "Histological and Cytological Characterization of Anther and Appendage Development in Asian Lotus (Nelumbo nucifera Gaertn.)." International Journal of Molecular Sciences 20, no. 5 (February 26, 2019): 1015. http://dx.doi.org/10.3390/ijms20051015.

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The lotus (Nelumbo Adans.) is a perennial aquatic plant with important value in horticulture, medicine, food, religion, and culture. It is rich in germplasm and more than 2000 cultivars have been cultivated through hybridization and natural selection. Microsporogenesis and male gametogenesis in the anther are important for hybridization in flowering plants. However, little is known about the cytological events, especially related to the stamen, during the reproduction of the lotus. To better understand the mechanism controlling the male reproductive development of the lotus, we investigated the flower structure of the Asian lotus (N. nucifera). The cytological analysis of anther morphogenesis showed both the common and specialized cytological events as well as the formation of mature pollen grains via meiosis and mitosis during lotus anther development. Intriguingly, an anatomical difference in anther appendage structures was observed between the Asian lotus and the American lotus (N. lutea). To facilitate future study on lotus male reproduction, we categorized pollen development into 11 stages according to the characterized cytological events. This discovery expands our knowledge on the pollen and appendage development of the lotus as well as improving the understanding of the species differentiation of N. nucifera and N. lutea.
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Swan, Daniel C. "The North American Lotus (Nelumbo lutea Willd Pers.) - Sacred Food of the Osage People." Ethnobotany Research and Applications 8 (November 23, 2010): 249. http://dx.doi.org/10.17348/era.8.0.249-253.

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Francko, David A. "Studies on Nelumbo lutea (Willd.) Pers. II. Effects of pH on photosynthetic carbon assimilation." Aquatic Botany 26 (January 1986): 119–27. http://dx.doi.org/10.1016/0304-3770(86)90010-0.

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Dissertations / Theses on the topic "Nelumbo lutea"

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Snow, Joe R. "Establishment and Competitive Ability of Nelumbo Lutea in Relation to Myriophyllum Spicatum." Thesis, University of North Texas, 2000. https://digital.library.unt.edu/ark:/67531/metadc2694/.

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Limitations from reduced light and increasing water depth on Nelumbo lutea seedlings were determined in tank experiments. Survival was high in all tested light levels. Total biomass increased significantly with increasing light. Biomass allocation shifted significantly to root production between 3 and 6 weeks in the 10 and 24% levels. Survival decreased with increasing planting depth, and biomass of survivors reduced significantly between 0.5, 1.0, and 1.5 m depths. Nelumbo lutea and Myriophyllum spicatum populations were monitored for one season in a 0.7 ha pond to track changes in species dominance. Myriophyllum spicatum dominated early, and N. lutea dominated from July through October, suppressing M. spicatum at all depths. Competitive interactions between N. lutea and M. spicatum were investigated for two seasons in a container experiment situated within a pond. Where established, N. lutea dominated in the presence of M. spicatum. However, N. lutea could not be established in depths greater than 1 meter.
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