Bibliografías temáticas / Native plants

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Literatura académica sobre el tema "Native plants"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 9 de junio de 2025

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Artículos de revistas sobre el tema "Native plants"

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Pearse, Ian S., and Andrew L. Hipp. "Native plant diversity increases herbivory to non-natives." Proceedings of the Royal Society B: Biological Sciences 281, no. 1794 (November 7, 2014): 20141841. http://dx.doi.org/10.1098/rspb.2014.1841.

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There is often an inverse relationship between the diversity of a plant community and the invasibility of that community by non-native plants. Native herbivores that colonize novel plants may contribute to diversity–invasibility relationships by limiting the relative success of non-native plants. Here, we show that, in large collections of non-native oak trees at sites across the USA, non-native oaks introduced to regions with greater oak species richness accumulated greater leaf damage than in regions with low oak richness. Underlying this trend was the ability of herbivores to exploit non-native plants that were close relatives to their native host. In diverse oak communities, non-native trees were on average more closely related to native trees and received greater leaf damage than those in depauperate oak communities. Because insect herbivores colonize non-native plants that are similar to their native hosts, in communities with greater native plant diversity, non-natives experience greater herbivory.
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Meyer, Mary H., and Helen C. Harrison. "Using Native Plants." HortScience 32, no. 3 (June 1997): 493A—493. http://dx.doi.org/10.21273/hortsci.32.3.493a.

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Using Native Plants is a 120-min videotape that was developed as a result of a Cooperative Extension Partnership Programming Grant between the Univ. of Minnesota, Minnesota Extension Service and the Cooperative Extension–Univ. of Wisconsin-Extension. The content covers woodland wildflowers, prairie establishment and maintenance, landscaping lakeshores, and using native plants in traditional gardens settings.Video segments include: Eloise Butler Wildflower garden, Minneapolis, Minn.; Curtis Prairie, Madison, Wis.; Big Sandy Lake, Minn.; and the Minnesota Landscape Arboretum, Chanhassen. Developed originally as advanced Master Gardener training, the program was a national satellite broadcast on 29 Feb. 1996. It was viewed by at least nine states and more than 500 participants. Video production costs, including a 20-page participant's handout with extensive references and plant lists, were just under $13,000. A cost analysis, evaluation, sample of the participant's packet, pictures from the videotape and an order form will be presented. Copies of the tape and print packet may be obtained for $50 from Minnesota Extension Service, 1.800.876.8636, or Univ. of Wisconsin-Extension, at 1.608.262.3346.
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Yessoufou, Kowiyou. "The Patterns of Intraspecific Variations in Mass of Nectar Sugar along a Phylogeny Distinguish Native from Non-Native Plants in Urban Greenspaces in Southern England." Plants 12, no. 18 (September 14, 2023): 3270. http://dx.doi.org/10.3390/plants12183270.

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To serve human needs, non-native species are selected based on an array of functional traits, which generally confer competitive advantages to these species in their recipient environments. Identifying non-obvious functional traits that indirectly inform human selection of non-natives to introduce into urban greenspaces is not yet part of common discussions in invasion biology. We tested whether functional traits integrated within a phylogenetic framework, may reveal those subtle criteria underlying the introduction of non-native plants into urban greenspaces. We found no differences in terms of functional traits between natives and non-natives. We also found no evidence that functional traits predict nectar production, irrespective of how nectar production was measured. Finally, we found that the mean sugar concentration of nectar per flower is evolutionarily shared both within closely related non-native plants as well as within close native plants. However, phylogenetically close species share similar intraspecific variation in mass of nectar sugar per flower, but this is true only for non-native plants, thus revealing a non-obvious selection criteria of non-native plants for urban greenspaces. Our results indicate that the phylogenetic patterns of intraspecific variation in mass of nectar sugar per flower is the major criterion distinguishing non-natives from native plants in urban greenspaces in Southern England.
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Aslan, Clare, and Marcel Rejmanek. "Native fruit traits may mediate dispersal competition between native and non-native plants." NeoBiota 12 (February 15, 2012): 1–24. https://doi.org/10.3897/neobiota.12.2357.

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Seed disperser preferences may mediate the impact of invasive, non-native plant species on their new ecological communities. Significant seed disperser preference for invasives over native species could facilitate the spread of the invasives while impeding native plant dispersal. Such competition for dispersers could negatively impact the fitness of some native plants. Here, we review published literature to identify circumstances under which preference for non-native fruits occurs. The importance of fruit attraction is underscored by several studies demonstrating that invasive, fleshy-fruited plant species are particularly attractive to regional frugivores. A small set of studies directly compare frugivore preference for native vs. invasive species, and we find that different designs and goals within such studies frequently yield contrasting results. When similar native and non-native plant species have been compared, frugivores have tended to show preference for the non-natives. This preference appears to stem from enhanced feeding efficiency or accessibility associated with the non-native fruits. On the other hand, studies examining preference within existing suites of co-occurring species, with no attempt to maximize fruit similarity, show mixed results, with frugivores in most cases acting opportunistically or preferring native species. A simple, exploratory meta-analysis finds significant preference for native species when these studies are examined as a group. We illustrate the contrasting findings typical of these two approaches with results from two small-scale aviary experiments we conducted to determine preference by frugivorous bird species in northern California. In these case studies, native birds preferred the native fruit species as long as it was dissimilar from non-native fruits, while non-native European starlings preferred non-native fruit. However, native birds showed slight, non-significant preference for non-native fruit species when such fruits were selected for their physical resemblance to the native fruit species. Based on our review and case studies, we propose that fruit characteristics of native plant communities could dictate how well a non-native, fleshy-fruited plant species competes for dispersers with natives. Native bird preferences may be largely influenced by regional native fruits, such that birds are attracted to the colors, morphology, and infructescence structures characteristic of preferred native fruits. Non-native fruits exhibiting similar traits are likely to encounter bird communities predisposed to consume them. If those non-natives offer greater fruit abundance, energy content, or accessibility, they may outcompete native plants for dispersers.
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Thynne, Jenny. "Observations of native bees and native plants." Metamorphosis Australia : magazine of the Butterfly & Other Invertebrates Club 102 (December 2021): 12–18. https://doi.org/10.5962/p.420272.

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Ornduff, Robert. "Native Plants: Conservation Priorities." Science 243, no. 4898 (March 24, 1989): 1535. http://dx.doi.org/10.1126/science.243.4898.1535.b.

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ORNDUFF, R. "Native Plants: Conservation Priorities." Science 243, no. 4898 (March 24, 1989): 1535. http://dx.doi.org/10.1126/science.243.4898.1535-a.

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Flint, Harrison L. "Native Plants: Another View." Arnoldia 58, no. 3 (1998): 30–32. http://dx.doi.org/10.5962/p.251208.

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Sun, Yan, and Aline Junod. "Invasive plants differ from native plants in their impact on native communities." Journal of Vegetation Science 28, no. 6 (November 2017): 1250–59. http://dx.doi.org/10.1111/jvs.12582.

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Liu, X. A., Y. Peng, J. J. Li, and P. H. Peng. "Enhanced shoot investment makes invasive plants exhibit growth advantages in high nitrogen conditions." Brazilian Journal of Biology 79, no. 1 (January 2019): 15–21. http://dx.doi.org/10.1590/1519-6984.169578.

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Abstract Resource amendments commonly promote plant invasions, raising concerns over the potential consequences of nitrogen (N) deposition; however, it is unclear whether invaders will benefit from N deposition more than natives. Growth is among the most fundamental inherent traits of plants and thus good invaders may have superior growth advantages in response to resource amendments. We compared the growth and allocation between invasive and native plants in different N regimes including controls (ambient N concentrations). We found that invasive plants always grew much larger than native plants in varying N conditions, regardless of growth- or phylogeny-based analyses, and that the former allocated more biomass to shoots than the latter. Although N addition enhanced the growth of invasive plants, this enhancement did not increase with increasing N addition. Across invasive and native species, changes in shoot biomass allocation were positively correlated with changes in whole-plant biomass; and the slope of this relationship was greater in invasive plants than native plants. These findings suggest that enhanced shoot investment makes invasive plants retain a growth advantage in high N conditions relative to natives, and also highlight that future N deposition may increase the risks of plant invasions.
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Tesis sobre el tema "Native plants"

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Zuefle, Marion E. "The impact of non-native woody plants on the native herbivorous insect community of northern Delaware." Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file, 75 p, 2006. http://proquest.umi.com/pqdweb?did=1163239621&sid=7&Fmt=2&clientId=8331&RQT=309&VName=PQD.

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Von, Richter Lotte Victoria. "Native plants of Eastern Australia as bedding plants." Thesis, The University of Sydney, 1996. https://hdl.handle.net/2123/27551.

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Bedding plants are used extensively in many landscaping situations. The majority of bedding plants marketed commercially are exotic species with only limited propagation material of Australian species available. The objectives of this work was to assess Australian short—lived perennial species as bedding plants with particular reference to their ease of propagation from seed. An extensive survey of Eastern states Australian native annual and short lived perennial species has identified the following species as showing potential as bedding plants.
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White, Annie. "From Nursery to Nature: Evaluating Native Herbaceous Flowering Plants Versus Native Cultivars for Pollinator Habitat Restoration." ScholarWorks @ UVM, 2016. http://scholarworks.uvm.edu/graddis/626.

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There is growing awareness about the value of preserving and restoring floral-rich habitats for the benefit of pollinators, especially native bees. The increasing demand for native plants in pollinator habitat restoration and other ecological landscaping applications, combined with the desire for more robust and predictable plant habits, have led to the selection and breeding of native cultivars. Yet, little is known about how these cultivated varieties differ from the native species in their ability to attract and support pollinators. I compared flower visitation by all insect pollinators to 12 native herbaceous plant species and 14 native cultivars in a replicated field experiment at two sites over two years. I classified insect pollinators during visual field observations into seven taxonomic and functional groups. I found seven native species to be visited significantly more frequently by all insect pollinators (combined) than their cultivars, four were visited equally, and one native cultivar was visited more frequently than the native species. Bees (both native and non-native) and moths/butterflies exhibited similar preferences, whereas flies showed no preference between the native species and the native cultivar. Our study shows that many insect pollinators prefer to forage on native species over cultivated varieties of the native species, but not always, and not exclusively. Some native cultivars may be comparable substitions for native species in pollinator habitat restoration projects, but all cultivars should be evaluated on an individual basis. Plant selection is integral to the value and success of pollinator habitat restorations, yet there is little consistency and overlap in pollinator planting recommendations and very little empirical data to support plant choice. Non peer-reviewed pollinator plant lists are widely available and are often region-specific, but they are typically based on anecdotal rather than empirical data and lack in specificity. To help close the gap between anecdotal and empirical data, and between practice and research, I reviewed the published literature on plant selection for pollinator habitat restoration. I explicitly reviewed and compared the value of native plant species, near-natives, non-natives and native cultivars. From there, I identified gaps in the literature that are most needed in practice and recommended basic strategies for practitioners to navigate plant lists and choose the best plants for a site's success.
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Cerqueira, Nicole. "Pollinator visitation preference on native and non-native congeneric plants." Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file 2.91 Mb., 84 p, 2005. http://wwwlib.umi.com/dissertations/fullcit/1428175.

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Vodraska, Ellery Ala. "The influence of native plants on arthropod population dynamics can native plants enhance conservation biological control /." College Park, Md.: University of Maryland, 2008. http://hdl.handle.net/1903/8239.

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Thesis (M.S.) -- University of Maryland, College Park, 2008.<br>Thesis research directed by: Dept. of Entomology. Title from t.p. of PDF. Includes bibliographical references. Published by UMI Dissertation Services, Ann Arbor, Mich. Also available in paper.
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Ruchala, Stacy L. "Propagation of Several Native Ornamental Plants." Fogler Library, University of Maine, 2002. http://www.library.umaine.edu/theses/pdf/RuchalaSL2002.pdf.

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Beilharz, Vyrna Caldwell. "Cercosporoid fungi on Australian native plants /." Connect to thesis, 1994. http://eprints.unimelb.edu.au/archive/00000670.

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Howery, Larry D., Ed Northam, Walt Meyer, Jennifer Arnold, Emilio Carrillo, Kristen Egen, and Mary Hershdorfer. "Non-Native Invasive Plants of Arizona." College of Agriculture, University of Arizona (Tucson, AZ), 2016. http://hdl.handle.net/10150/625545.

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84 pp. / First Edition Published 2001<br>The noxious weed problem in the western United States has been described as, a biological forest fire racing beyond control because no one wants to be fire boss. Indeed, when small weed infestations are left unchecked, they can grow exponentially and spread across the land much like a slow-moving biological wildfire. However, land consumed by fire usually recovers and is often more productive than before the fire occurred. On the other hand, land consumed by noxious weeds may be irreversibly changed and never again reach its full biological potential. Reviewed 12/2016, First Edition Published 2001
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Howery, Larry D., Ed Northam, Walt Meyer, Jennifer Arnold, Emilio Carrillo, Kristen Egen, and Mary Hershdorfer. "Non-Native Invasive Plants of Arizona." College of Agriculture and Life Sciences, University of Arizona (Tucson, AZ), 2009. http://hdl.handle.net/10150/146922.

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84 pp.<br>First Edition Published, 2001<br>The noxious weed problem in the western United States has been described as, a biological forest fire racing beyond control because no one wants to be fire boss. Indeed, when small weed infestations are left unchecked, they can grow exponentially and spread across the land much like a slow-moving biological wildfire. However, land consumed by fire usually recovers and is often more productive than before the fire occurred. On the other hand, land consumed by noxious weeds may be irreversibly changed and never again reach its full biological potential.
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GOODWIN, TROY LAWRENCE. "PRESERVING NATIVE PLANTS THROUGH REGULATION: A CASE STUDY OF THE CITY OF TUCSON'S NPPO (NATIVE PLANT PRESERVATION ORDINANCE)." Thesis, The University of Arizona, 2001. http://hdl.handle.net/10150/555346.

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Libros sobre el tema "Native plants"

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Sultanbawa, Yasmina, and Fazal Sultanbawa, eds. Australian Native Plants. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635.

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L, Greenberg Katherine, and Merrick Beth D, eds. Growing California native plants. 2nd ed. Berkeley: University of California Press, 2012.

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Society for Growing Australian Plants. Tablelands Branch., ed. North Queensland native plants. Kenthurst: Kangaroo Press in association with the Society for Growing Australian Plants--NSW Ltd., 1988.

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Abouguendia, Zoheir M. Seeded native range plants. [Saskatchewan]: Grazing and Pasture Technology Program and Extension Service, Saskatchewan Agriculture and Food, 1995.

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Garden, Brooklyn Botanic, ed. A native plants reader. Brooklyn, NY: Brooklyn Botanic Garden, 2012.

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Judith, Phillips. Southwestern landscaping with native plants. Santa Fe, N.M: Museum of New Mexico Press, 1987.

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Huddleston, S. Grow native: Landscaping with native and apt plants of the Rocky Mountains. Golden, Colo: Fulcrum Pub., 1998.

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Huddleston, S. Grow native: Landscaping with native and apt plants of the Rocky Mountains. Boulder, Colo: Pruett Pub. Co., 1988.

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1953-, Meidinger Dellis Vern, Penny J. L. 1971-, and British Columbia. Conservation Data Centre., eds. Rare native vascular plants of British Columbia. 2nd ed. Victoria: British Columbia [Conservation Data Centre], 2002.

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1953-, Meidinger Dellis Vern, Straley Gerald Bane 1945-, and BC Environment, eds. Rare native vascular plants of British Columbia. [Victoria]: BC Environment, 1998.

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Capítulos de libros sobre el tema "Native plants"

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Wandrag, Elizabeth M., and Jane A. Catford. "Competition between native and non-native plants." In Plant invasions: the role of biotic interactions, 281–307. Wallingford: CABI, 2020. http://dx.doi.org/10.1079/9781789242171.0281.

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Abstract The introduction of species to new locations leads to novel competitive interactions between resident native and newly-arriving non-native species. The nature of these competitive interactions can influence the suitability of the environment for the survival, reproduction and spread of non-native plant species, and the impact those species have on native plant communities. Indeed, the large literature on competition among plants reflects its importance in shaping the composition of plant communities, including the invasion success of non-native species. While competition and invasion theory have historically developed in parallel, the increasing recognition of the synergism between the two themes has led to new insights into how non-native plant species invade native plant communities, and the impacts they have on those plant communities. This chapter provides an entry point into the aspects of competition theory that can help explain the success, dominance and impacts of invasive species. It focuses on resource competition, which arises wherever the resources necessary for establishment, survival, reproduction and spread are in limited supply. It highlights key hypotheses developed in invasion biology that relate to ideas of competition, outlines biotic and abiotic factors that influence the strength of competition and species' relative competitive abilities, and describes when and how competition between non-native and native plant species can influence invasion outcomes. Understanding the processes that influence the strength of competition between non-native and native plant species is a necessary step towards understanding the causes and consequences of biological invasions.
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Garner, Amanda, and La Vergne Lehmann. "Overview of Australian Native Plants." In Australian Native Plants, 1–4. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-1.

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Mazzorana, Gary, and Melissa Mazzorana. "Cultivation of Lemon Myrtle (Backhousia citriodora)." In Australian Native Plants, 113–26. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-10.

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Sultanbawa, Fazal. "Cultivation of Muntries (Kunzea pomifera F. Muell.)." In Australian Native Plants, 127–32. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-11.

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Read, Christopher D. "Cultivation of Native Pepper (Tasmannia lanceolata)." In Australian Native Plants, 133–45. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-12.

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Lethbridge, Ben. "Cultivation of Quandong (Santalum acuminatum)." In Australian Native Plants, 147–53. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-13.

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Glover, Rus. "Cultivation of Riberry (Syzygium luehmannii)." In Australian Native Plants, 155–63. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-14.

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Dudley, Lyle. "Production of Wattle Seed (Acacia victoriae)." In Australian Native Plants, 165–72. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-15.

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Savigni, Donna. "Alternative Medicines Based on Aboriginal Traditional Knowledge and Culture." In Australian Native Plants, 175–221. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-16.

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Williams, David J., and Mridusmita Chaliha. "Nutritional Characteristics and Bioactive Compounds in Australian Native Plants: A Review." In Australian Native Plants, 223–36. Boca Raton, FL : CRC Press, Taylor & Francis Group, 2016. | Series: Traditional herbal medicines for modern times ; 17: CRC Press, 2017. http://dx.doi.org/10.1201/b20635-17.

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Actas de conferencias sobre el tema "Native plants"

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Tang, Liang, Yang Wang, Yanyan Wu, Lejun Fang, Lipeng Lu, Jie Ding, and Huadong Kong. "Implementation of a Cloud-Native Operating System for City-Level Virtual Power Plants." In 2024 8th International Conference on Electrical, Mechanical and Computer Engineering (ICEMCE), 104–9. IEEE, 2024. https://doi.org/10.1109/icemce64157.2024.10862961.

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Wood, Pete. "An Examination of the Realities of the Power Plant Buried Piping Environment via Measured Potentials." In CORROSION 2014, 1–12. NACE International, 2014. https://doi.org/10.5006/c2014-4344.

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Abstract Power plants contain a complex network of buried piping composed of various materials, primarily metals, all electrically connected via a copper grounding grid. While the effects of mixed metal couples are a topic of discussion, little has been done to examine and document their measured impact in an installed plant environment. This paper will present an analysis of an extensive amount of native (static) copper/copper sulfate reference cell (CSE) potential data obtained from buried structure surveys at nineteen (19) nuclear plants, most with existing cathodic protection (CP) systems but several without CP systems. By integrating CSE potential data with detailed positional information from digitized drawings for piping, buildings, and grounding systems, a map of the native potential landscape in a nuclear power plant with respect to the buried mixed metal piping environment is developed. Statistical analyses of the distribution of native potentials will be discussed, along with implications of these analyses for the actual impact of mixed metals. Suggestions for further examination of the effects of mixed metals in a plant environment will also be presented. The perspectives discussed in this paper have implications for nuclear power plant operators, especially those pursuing License Renewal under the guidance of LR-ISG-2011-03, “Final License Renewal Interim Staff Guidance”, for NUREG-1801, Revision 2 (“The GALL Report”), Aging Management Program XI.M411.
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Elsukova, Ekaterina, Ivan Nedbaev, Anastasiya Kraves, and Daria Khloptsova. "ECOPHYSIOLOGICAL RESPONSE OF INVASIVE SPECIES ON SPOIL HEAP WITH DIFFERENT TYPE OF RECLAMATION: SOLIDAGO GIGANTEA AITON STUDY." In 24th SGEM International Multidisciplinary Scientific GeoConference 2024, 107–16. STEF92 Technology, 2024. https://doi.org/10.5593/sgem2024/5.1/s20.14.

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Coal mine spoil heaps are subject to reclamation processes in order to restore their environmental, social and economic functions. The reclamation may consist of placing soil layers (topsoil, TS) on the surface of the bare rock (carboniferous rock accompanying the coal seam) and then planting vegetation. However, waste rock (bare rock, BR) is usually left in place without overburden due to high costs. In both cases, there is a spontaneous succession of consisting vegetation of native and alien species. In this study, we compare the efficiency of seed germination populations of the alien invasive species Solidago gigantea Aiton (Sg) originating from the TS and BR areas of the same spoil heap and the ecophysiological response of plants grown from germinated seeds. The research was carried out under laboratory conditions, measuring the content of pigments in leaves, the efficiency of the photosynthetic apparatus (EPA), plant height and response to environmental stress factors (H2O2, MDA concentration). Significant differences between the two groups were tested using the t-test (p less than0.05). The results showed that the seeds from SgBR germinated (GP) more effectively (SgBR�93.5%, SgTS�82.69%) and had a higher germination synchrony index (Z) (SgBR�0.21, SgTS�0.16). However, the seeds from SgTS showed a higher mean germination time (MGT) (SgBR�5.75, SgTS�7.9). There was no statistically significant difference between plants grown from SgBR and SgTS seeds in plant height, content of chlorophyll a, flavonols and anthocyanins. However, plants from SgBR seeds exhibited higher stress tolerance, indicated by higher H2O2 content and better photosynthetic apparatus performance parameters�higher FV/FM, PIabs, PItotal, FV/FO, and lower VJ, VI. Further studies at the genomic level of both populations are recommended to obtain more detailed information on the adaptation mechanisms.
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Pasayat, Shubhra S., Qinchen Lin, Cheng Liu, Guangying Wang, Surjava Sanyal, Matthew Dwyer, Matthew Seitz, et al. "High-efficiency UV-A lasers using GaN waveguides on native GaN substrates." In Novel In-Plane Semiconductor Lasers XXIV, edited by Alexey A. Belyanin and Peter M. Smowton, 1. SPIE, 2025. https://doi.org/10.1117/12.3044327.

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Silva, Nethmi, Tommy D. Bounds, and Kanthasamy K. Muraleetharan. "Slope Reinforcement Using Native Plants." In Geo-Structures 2024, 563–74. Reston, VA: American Society of Civil Engineers, 2024. http://dx.doi.org/10.1061/9780784485842.053.

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Gibson, Dan. "Native perennial plants to attract natural enemies." In 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.114440.

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Koppel, L. A., C. Bolle, J. I. Kim, and V. A. Sineshchekov. "Native phytochrome A pools differ in serine phosphorylation at the N-terminus of the molecule and mediate different types of photoresponders." In IX Congress of society physiologists of plants of Russia "Plant physiology is the basis for creating plants of the future". Kazan University Press, 2019. http://dx.doi.org/10.26907/978-5-00130-204-9-2019-227.

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Mavi, Kazim, Durmus Alpaslan Kaya, Musa Turkmen, and Filiz Ayanoglu. "The variation of essential oil and carvacrol contents of native grown Thymbra Spicata var. Spicata L." In The 8th International Conference on Advanced Materials and Systems. INCDTP - Leather and Footwear Research Institute (ICPI), Bucharest, Romania, 2020. http://dx.doi.org/10.24264/icams-2020.ii.18.

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In the study, it is aimed to create breeding lines of thyme (Thymbra spicata L.), which is important both culturally and economically, by selecting a single plant among the plants grown in different regions in Hatay. For this purpose, a genetic pool was created for Thymbra spicata L. plant in the plant samples taken from the locations where the plants are densely grown, and these plants were examined in terms of leaf characteristics, number of oil glands per unit area, oil gud size and essential oil components. Plants were propagated and preserved with cuttings taken from these single plants. In this study, which includes the pre-selection stage, 213 plants from 68 different locations were determined in the province of Hatay. The essential oil ratios of the plants varied between 0.70% and 3.90% and showed a wide variation. The rate of carvacrol, which is the main component of the essential oil of the thyme plant, was between 28.12% and 78.48%. Plants with code number Z14, Z3, Z25, Z38, Z77, Z104, Z35 and Z43 with an essential oil ratio of 3.5% and above and plants with code number Z167, Z165 and Z64 with a high carvacrol ratio were selected to be used in future breeding studies.
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Armanto, M., A. Hermawan, M. S. Imanudin, and E. Wildayana. "Restoring Degraded Peatlands through Improving Land Suitability and Cultivating Native and Non Native Plants of Peatlands." In Proceedings of the 3rd Sriwijaya International Conference on Environmental Issues, SRICOENV 2022, October 5th, 2022, Palembang, South Sumatera, Indonesia. EAI, 2023. http://dx.doi.org/10.4108/eai.5-10-2022.2328261.

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Fontowicz, Louis. "Response of four native wetlands plants species to drought and nitrogen imbalances." In ASPB PLANT BIOLOGY 2020. USA: ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1053451.

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Informes sobre el tema "Native plants"

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Dumroese, R. Kasten, Thomas D. Landis, and Tara Luna. Raising native plants in nurseries: basic concepts. Ft. Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 2012. http://dx.doi.org/10.2737/rmrs-gtr-274.

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Guyton, John, Jeanne C. Jones, and Edward Entsminger. Alternative Mowing Regimes’ Influence on Native Plants and Deer. Mississippi State University, July 2014. http://dx.doi.org/10.54718/bybx1010.

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This study evaluated mowing regimes, changes in native and non-native plant communities, deer presence in the research plots,and public perception of various management practices on ROWs. No significant difference was found in the height of vegetation 3 weeks after each mowing between research plots mowed 4 times per year and plots mowed only once per year in uplands or lowlands. Native plants increased in plots mowed once per year and deer preferred the frequently mowed plots where clovers and vetches had been seeded. Increasing the carrying capacity of the lowlands with more extensive plantings of clover and vetch may attract deer, thus encouraging them to browse and use the underpasses beneath bridges and making the ROWs safer. The public survey found strong support for wildflowers on ROWs and a distaste for litter. Further, respondents would tolerate a less manicured ROW if it saved money, made the roads safer, and hid litter.
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Sekoni, Tosin, and Catherine Thomas. Engineering With Nature : integrating plant communities into engineering practices. a guidance manual, book 2. Engineer Research and Development Center (U.S.), March 2025. https://doi.org/10.21079/11681/49651.

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Applying native plant communities in environmental engineering practices can profoundly enhance the establishment and sustainment of natural ecosystems, which is imperative for the success of healthy habitats and the wildlife communities they support. The objective of this manual is to stimulate interest in applying native plants in a wide variety of settings, including inland, upland, coastal, riparian, and grassland. The information presented in this manual illustrates natural plant communities and sustainable strategies using native vegetation. This manual discusses the application of vegetation in US Army Corps of Engineers (USACE) projects. Additional case studies incorporate Engineering With Nature® (EWN®) principles into the design and development of existing infrastructural facilities within a military installation. Specifically, the manual identifies desirable plant species suitable for propagation in various states based on historic plant communities and ecological composition and lists invasive species to avoid with suggested native alternatives. Further, it discusses the use of native vegetation in biotechnical applications. Intended users are USACE districts, local, state, and federal agencies, contractors (specialists), and other users (generalists) engaged in EWN projects. Finally, the publication helps practitioners think creatively about using native plant species before, during, and after project design phases.
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Tippery, Nicholas, Nathan Harms, Matthew Purcell, Sun Lee Hong, Patrick Häfliger, Katelin Killoy, Ashley Wolfe, and Ryan Thum. Assessing the genetic diversity of Nymphoides peltata in the native and adventive range using microsatellite markers. Engineer Research and Development Center (U.S.), February 2024. http://dx.doi.org/10.21079/11681/48222.

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Nymphoides peltata (yellow floatingheart), native to Eurasia, is an invasive plant in the USA, where it grows in relatively isolated but widespread populations. The species is capable of sexual reproduction by seed and asexual reproduction through fragmentation. Although N. peltata is recognized as a noxious weed, little is known about its geographic region of origin or its dispersal mechanisms and relative amount of genetic variation in its adventive range. We conducted a genetic analysis of N. peltata by studying 68 localities across the native range and 47 localities in the adventive range, using microsatellite markers to determine genetic variability within and among populations, and to infer regions in the native range from which invasive plants originated. A large number of sites in the USA were genetically identical to one another, and there were two predominant multilocus allele phenotypes that were distributed in the northern and southern latitudes, respectively. Additional USA sites were similar to one of the predominant genetic profiles, with greater genetic diversity in southern populations. The genetically identical sites are consistent with asexual spread, potentially via anthropogenic mechanisms. Plants across the USA range were observed to produce viable seeds, and some genetic variation could be explained by sexual reproduction. All USA plants were more similar to plants in Europe than they were to plants in Asia, indicating that the plants likely were introduced originally from Europe. The existence of two genetic clusters and their similarity to plants in different parts of Europe constitute evidence for at least two N. peltata introductions into the USA.
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Gross, Jacob, Melissa Simon, Alison Ainsworth, and Woody Mallinson. Established invasive plant species monitoring: Haleakalā National Park 2012 summary report. National Park Service, 2017. https://doi.org/10.36967/2239712.

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In 2012 and 2013, the Pacific Island Network Inventory and Monitoring program established transects to monitor non-native, invasive plant species at Haleakalā National Park. Belt transects were utilized to monitor non-native species frequency and abundance in two plant communities, wet forest and subalpine shrubland. Repeated monitoring of these plant communities is planned to occur at five year intervals with objectives to detect change in non-native plant composition, distribution frequency, and cover. Because this report represents the first read of transects, an analysis of change over time is not possible. Instead, the objectives of the initial report are to 1) summarize and compare non-native richness at the plant community level, 2) determine the most common (i.e., most frequent) non-native species within each plant community, and 3) document the spatial distribution of non-native species cover across each plant community. The wet forest plant community, encompassing Kīpahulu Valley, ranged from 240-2280 m, while the subalpine shrubland ranged from 1980-3000 m, encompassing the park’s summit, headquarters, and several hiking trails open to the public. These plant communities have a history of feral ungulate disturbance along with recent and ongoing efforts to control non-native plants and animals. The study area included approximately 7,000 ha and a total of 60 non-native species were documented. Eight species of management concern to the park were recorded in the wet forest. Three of these species were the most frequently encountered non-native plants; including the shrub, Clidemia hirta, the herb, Hedychium gardnerianum, and the tree, Psidium cattleianum. Neither C. hirta nor H. gardnerianum were documented along transect surveys conducted 24 years prior. Non-native plant cover within the wet forest generally decreased with increased elevation. Ten species of management concern to the park were recorded in the subalpine shrubland. However, these species occurred at relatively low frequencies along transects. Overall, non-native plant frequency was higher in the subalpine shrubland than in the wet forest. This was largely due to the herb, Hypochaeris radicata, and the grass, Holcus lanatus, the most frequently encountered non-native species in the subalpine shrubland plant community. The results from the established invasive plant species monitoring provide a snap-shot assessment of the non-native plants in these relatively intact plant communities and compliment other plant monitoring protocols conducted by I&amp;M, such as Focal Terrestrial Plant Community Monitoring and Early Detection of Invasive Plant Species. In addition to supplementing less-frequent surveys conducted by the park’s Resource Management division, these data collected by I&amp;M are intended to contribute to the science-based management of Haleakalā National Park and provide consistent vegetation monitoring across the parks within the Pacific Island Network. Importantly, future I&amp;M monitoring efforts will allow for change detection along these permanent transects and increase spatial sampling area with newly established temporary transects.
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Dick, Gary O., R. M. Smart, and Lynde L. Dodd. Propagation and Establishment of Native Plants for Vegetative Restoration of Aquatic Ecosystems. Fort Belvoir, VA: Defense Technical Information Center, June 2013. http://dx.doi.org/10.21236/ada582960.

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Maslo, Brooke, Morgan Mark, Kathleen Kerwin, Evan Drake, Brooke Maslo, Morgan Mark, Kathleen Kerwin, and Evan Drake. Habitat use and foraging ecology of bats in Morristown National Historical Park: Effects of invasive vegetation. National Park Service, 2024. http://dx.doi.org/10.36967/2303689.

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Temperate insectivorous bats value high prey abundance and appropriate vegetative structure when selecting foraging habitats. Forests, particularly in the eastern United States, provide prime foraging habitats for bats but can be heavily impacted by non-native plants, which may alter arthropod diversity and abundance, as well as vegetative structure. To investigate associations between non-native plants and insect abundance, vegetative structure, and consequently bat activity, we performed vegetation surveys, insect trapping, and acoustic monitoring at 23 forested plots in northern New Jersey, USA. We predicted that non-native vegetation would either positively influence bat activity by increasing structural openness (thus, facilitating flight) or negatively influence bat activity by lowering the abundance of putative prey. We also hypothesized that vegetative characteristics, and therefore non-native vegetation, impact bats differently depending on their foraging habitat preferences. The percent of non-native cover of the ground and midstory vegetative layers of our study plots ranged from 0?92.92% (x? = 46.94 ? 5.77 SE) and was significantly correlated with structural vegetative characteristics, such as midstory clutter (? = 0.01 ? 0.006 SE), but not putative prey abundance (? = -0.81 ? 2.57 SE). Generalized linear models with only vegetative characteristics best predicted overall bat activity and foraging, which were greatest in areas with a high percent non-native vegetation and low midstory clutter. Although percent non-native vegetation and midstory clutter were also significant effects for bats that prefer to forage in open areas, neither vegetative characteristics nor prey abundance were significant effects for clutter-loving bats. Such findings suggest that vegetative structure is more important than prey availability for predicting overall insectivorous bat activity, but other factors, such as foraging strategy and life history traits, can impact how bat guilds respond to non-native vegetation. Therefore, more research is required to reveal additional mechanisms by which non-native plants impact bats.
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Amy McKee, Amy McKee. How can we make building pilina (relationships) with native plants fun for the whole family? Experiment, February 2024. http://dx.doi.org/10.18258/66729.

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Smith, Thomas, and Ann L. Hild. Effectiveness of Selected Native Plants as Competitors with Non-indigenous and Invasive Knapweed and Thistle Species. Fort Belvoir, VA: Defense Technical Information Center, September 2011. http://dx.doi.org/10.21236/ada553671.

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Freedman, Jan E., Michael J. Grodowitz, Robin Swindle, and Julie G. Nachtrieb. Potential Use of Native and Naturalized Insect Herbivores and Fungal Pathogens of Aquatic and Wetland Plants. Fort Belvoir, VA: Defense Technical Information Center, August 2007. http://dx.doi.org/10.21236/ada471715.

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