Bibliographies thématiques / Ecology of Vascular Plants

Littérature scientifique sur le sujet « Ecology of Vascular Plants »

Auteur : Grafiati
Publié le 18 mai 2024

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Articles de revues sur le sujet "Ecology of Vascular Plants"

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Doyle, James A. « PHYLOGENY OF VASCULAR PLANTS ». Annual Review of Ecology and Systematics 29, no 1 (novembre 1998) : 567–99. http://dx.doi.org/10.1146/annurev.ecolsys.29.1.567.

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Chawla, Amit, Om Parkash, Varun Sharma, S. Rajkumar, Brij Lal, Gopichand, R. D. Singh et A. K. Thukral. « Vascular plants, Kinnaur, Himachal Pradesh, India ». Check List 8, no 3 (1 juin 2012) : 321. http://dx.doi.org/10.15560/8.3.321.

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In the present study, we provide a checklist of the vascular plants of Kinnaur district situated in the Himachal Pradesh state of India in the western Himalaya. This checklist includes 893 taxa (viz., species, subspecies and varieties) belonging to 881 species of angiosperms and gymnosperms distributed among 102 families and 433 genera, and 30 species of pteridophytes. Information about the growth habit, threat and endemicity status is also provided. Our results show that family Compositae is by far the most species rich family with 122 species, followed by Poaceae (69), Rosaceae (58), Leguminosae (49) and Lamiaceae (38). Among the genera, Artemisia is the most diverse genus with 19 species, followed by Potentilla (14), Saussurea (13), Polygonum (11), Astragalus (10), Lonicera (10) and Nepeta (10). Similar to other regions in the western Himalayan range, family-to-genera ratio was 1:4.25 and the genera-to-species ratio was 1:2.04. Out of 893 taxa, our checklist includes 606 herb species, 63 trees, 108 shrubs, 28 climbers, 67 graminoids and 21 sedges and rushes. Of all the species recorded, 108 (12.2%) are endemic to western Himalaya and 27 (3%) are placed under IUCN threatened categories. The present checklist on the flora of Kinnaur provides an important baseline data for further quantitative studies on the characteristics of plant communities in this region and will help in the identification of priority conservation areas.
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Bowles, David E. « Vascular plants of Mammoth Spring, Arkansas1 ». Journal of the Torrey Botanical Society 147, no 1 (17 février 2020) : 87. http://dx.doi.org/10.3159/torrey-d-19-00019.1.

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Crandall-Stotler, Barbara, et Mohammad Iqbal. « Growth Patterns of Vascular Plants ». Bryologist 101, no 2 (1998) : 353. http://dx.doi.org/10.2307/3244215.

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Walles, Björn. « Growth patterns in vascular plants ». Nordic Journal of Botany 15, no 6 (décembre 1995) : 582. http://dx.doi.org/10.1111/j.1756-1051.1995.tb02125.x.

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König, Christian, Patrick Weigelt et Holger Kreft. « Dissecting global turnover in vascular plants ». Global Ecology and Biogeography 26, no 2 (13 novembre 2016) : 228–42. http://dx.doi.org/10.1111/geb.12536.

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Major, Jack. « Distribution of Vascular Plants in Utah ». Ecology 71, no 2 (avril 1990) : 830–31. http://dx.doi.org/10.2307/1940338.

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Atsatt, Peter R. « Are Vascular Plants "Inside-Out" Lichens ? » Ecology 69, no 1 (février 1988) : 17–23. http://dx.doi.org/10.2307/1943156.

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Einarsson, Eythór, et Eythor Einarsson. « Vascular Plants of the Thingvallavatn Area ». Oikos 64, no 1/2 (mai 1992) : 117. http://dx.doi.org/10.2307/3545047.

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Večeřa, Martin, Jan Divíšek, Jonathan Lenoir, Borja Jiménez‐Alfaro, Idoia Biurrun, Ilona Knollová, Emiliano Agrillo et al. « Alpha diversity of vascular plants in European forests ». Journal of Biogeography 46, no 9 (7 juin 2019) : 1919–35. http://dx.doi.org/10.1111/jbi.13624.

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Thèses sur le sujet "Ecology of Vascular Plants"

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Harrelson, Sarah M. « A floristic survey of the terrestrial vascular plants of Strouds Run State Park, Athens County, Ohio ». Ohio : Ohio University, 2005. http://www.ohiolink.edu/etd/view.cgi?ohiou1113581854.

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Mallick, Debanshu. « Study on diversity and ecology of vascular plants at medicinal plant conservation areas (MPCAs) in Terai and Duars, West Bengal ». Thesis, University of North Bengal, 2022. http://ir.nbu.ac.in/handle/123456789/4799.

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Santos, Leonardo Biral [UNESP]. « Florística vascular da Mata da Pavuna, Botucatu, SP, Brasil ». Universidade Estadual Paulista (UNESP), 2011. http://hdl.handle.net/11449/87842.

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Made available in DSpace on 2014-06-11T19:23:02Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-03-01Bitstream added on 2014-06-13T20:29:29Z : No. of bitstreams: 1 santos_lb_me_rcla.pdf: 1972732 bytes, checksum: 1e73f7d242eda88ec651d632e3d4c8a0 (MD5)
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
A Mata da Pavuna é um fragmento de floresta estacional semidecídua em um cânion com afloramento rochoso e solo raso, localizado no município de Botucatu, Estado de São Paulo. Foram amostradas todas as espécies vasculares em estádio reprodutivo e identificadas até o menor nível possível. Foram encontradas 381 espécies em 83 famílias. Fabaceae foi a família com maior número de espécies (44), seguido de Asteraceae (33), Euphorbiaceae (18), Poaceae (17), Malvaceae (14), Bignoniaceae e Solanaceae (12). Em Pteridophyta sensu stricto as famílias mais diversas foram Pteridaceae (oito espécies) e Polypodiaceae (sete). Comparado a outros levantamentos florísticos extensos na Mata Atlântica os resultados ressaltam a elevada diversidade florística local, bem como a presença de espécies típicas de formações xerofíticas sugerindo, inclusive, a ocorrência de um encrave de vegetação seca. Noticiamos também o primeiro registro de Pellaea ovata (Desv.) Weath. (Pteridaceae) para o Brasil
The „Mata da Pavuna‟ is a semideciduous seasonal forest fragment located in a canyon characterized by rock outcrops and shallow soil, in municipality of Botucatu, State of São Paulo. We collected all vascular plants in reproductive stage, and identified them to the lowest taxonomic level possible. We found 381 species in 83 families. Fabaceae was the most diverse family with 44 species, followed by Asteraceae (33), Euphorbiaceae (18), Poaceae (17), Malvaceae (14), Bignoniaceae (12) and Solanaceae (12). In the Pteridophyta sensu lato the most diverse families was Pteridaceae (eight species) and Polypodiaceae (seven). Compared to other comprehensive floristic surveys carried out in the Atlantic Forest these results show the high floristic diversity and the presence of typical xerofitic vegetation species, suggesting the presence of an enclave of dry forest. We reported here the first mention of Pellaea ovata (Desv.) Weath. (Pteridaceae) for Brazil
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Heathcote, Steven John. « The ecology of vascular epiphytes in the Peruvian Andes ». Thesis, University of Oxford, 2013. http://ora.ox.ac.uk/objects/uuid:d7bee986-6066-48a1-8849-4aed22a3d766.

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Little is known about the composition of tropical epiphytic communities and the influence of environmental variables on community composition. In this thesis I quantify the diversity and biomass of bromeliads, and other vascular epiphytes along an altitudinal transect on the eastern slope of the southeast Peruvian Andes and then look for species’ adaptations related to patterns of diversity and biomass. I compare patterns with those of woody species. Bromeliad species, like tree species, were found to form ecological zones related to climate. The lowest altitude ecological zone (below 1250 m) is the lowland rainforest (LRF), which has the warmest climate and highest evapotranspiration. In LRF vascular epiphytes are less prominent than other ecological zones, with the lowest bromeliad species richness and lowest vascular epiphyte biomass. However, low water-availability gives rise to most variable shoot morphology of bromeliads. The tropical montane forest (TMF), between 1250 m and 2250 m, is intermediate in climate between the LRF and the tropical montane cloud forest (TCF). The TMF has the highest α-diversity, but species richness is lower than the TCF. The shoot morphology of bromeliads is intermediate between TCF and LRF. The highest altitude ecological zone with forest is the TCF (above 2250 m). The TCF has the highest bromeliad species richness, and lowest diversity of shoot forms. The low diversity of shoot forms represents the need for a large phytotelm (water-impounding shoot) to intercept and store precipitation. The TCF has the highest vascular epiphyte biomass, although the biomass is variable as a consequence of the natural disturbance caused by landslides. Along the transect bromeliad species with CAM photosynthesis are only present in the LRF. Terrestrial bromeliad distribution records covering the Neotropics show CAM photosynthesis is more prevalent in drier environments showing that CAM photosynthesis is primarily an adaptation to drought. Epiphytic bromeliads, pre-adapted to a water-stressed environment show no differences in presence along rainfall gradients, but species with CAM photosynthesis occupy warmer environments.
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Kull, Matthew Austin. « Abundance patterns for vascular epiphytes in a tropical secondary forest, Costa Rica ». Diss., Online access via UMI:, 2007.

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Santos, Leonardo Biral. « Florística vascular da Mata da Pavuna, Botucatu, SP, Brasil / ». Rio Claro : [s.n.], 2011. http://hdl.handle.net/11449/87842.

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Orientador: Julio Antonio Lombardi
Banca: Marco Atonio de Assis
Banca: Milton Groppo Junior
Resumo: A Mata da Pavuna é um fragmento de floresta estacional semidecídua em um cânion com afloramento rochoso e solo raso, localizado no município de Botucatu, Estado de São Paulo. Foram amostradas todas as espécies vasculares em estádio reprodutivo e identificadas até o menor nível possível. Foram encontradas 381 espécies em 83 famílias. Fabaceae foi a família com maior número de espécies (44), seguido de Asteraceae (33), Euphorbiaceae (18), Poaceae (17), Malvaceae (14), Bignoniaceae e Solanaceae (12). Em Pteridophyta sensu stricto as famílias mais diversas foram Pteridaceae (oito espécies) e Polypodiaceae (sete). Comparado a outros levantamentos florísticos extensos na Mata Atlântica os resultados ressaltam a elevada diversidade florística local, bem como a presença de espécies típicas de formações xerofíticas sugerindo, inclusive, a ocorrência de um encrave de vegetação seca. Noticiamos também o primeiro registro de Pellaea ovata (Desv.) Weath. (Pteridaceae) para o Brasil
Abstract: The „Mata da Pavuna‟ is a semideciduous seasonal forest fragment located in a canyon characterized by rock outcrops and shallow soil, in municipality of Botucatu, State of São Paulo. We collected all vascular plants in reproductive stage, and identified them to the lowest taxonomic level possible. We found 381 species in 83 families. Fabaceae was the most diverse family with 44 species, followed by Asteraceae (33), Euphorbiaceae (18), Poaceae (17), Malvaceae (14), Bignoniaceae (12) and Solanaceae (12). In the Pteridophyta sensu lato the most diverse families was Pteridaceae (eight species) and Polypodiaceae (seven). Compared to other comprehensive floristic surveys carried out in the Atlantic Forest these results show the high floristic diversity and the presence of typical xerofitic vegetation species, suggesting the presence of an enclave of dry forest. We reported here the first mention of Pellaea ovata (Desv.) Weath. (Pteridaceae) for Brazil
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Trentanovi, Giovanni. « Vascular plant species diversity in fragmented secondary plant communities : a landscape ecology approach ». Doctoral thesis, Università degli studi di Padova, 2012. http://hdl.handle.net/11577/3421745.

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Landscape ecology has been defined in a variety of different ways, but the common theme is the study of the ecological effects of ecosystem spatial patterning. Since the long history of landscape alteration has created novel systems with unknown dynamics, new tools are necessary to understand, manage and restore human dominated landscapes, preventing the loss of biodiversity. Among all, habitat fragmentation is the main process which affects biodiversity especially in human dominated landscapes. This thesis is based on three research papers concerning the evaluation of plant species diversity in fragmented and secondary plant communities. Moreover, the effect of natural reforestation process on biodiversity of secondary plant communities was investigated through a review paper. Focusing in each paper on different specific objectives due to the variability of landscape context and habitat type, the overall goal of this work was to detect spatial and management components influencing vascular plant species diversity. Through the different tools and methodologies used in each case study, we want to demonstrate the great applicability and versatility of landscape ecology approach both in theory and practice. The analyses were conducted on three fragmented secondary plant communities, i.e. meadow-pastures (Paper II), recent secondary woodlands (Paper III) and hedgerows (Paper IV), scattered in a dominant matrix type. Paper III was done during the collaboration with the Technische Universität of Berlin (Department of Ecology) during my research period abroad. The case studies were conducted both at patch and at landscape level, considering actual field data and management variables of the secondary plant communities surveyed (patch level) and the analysis of landscape asset around (landscape level). The latter was performed by GIS analysis. Regression models were used to relate plant species diversity to spatial and management variables. The survival of species depends on landscape dynamics and on spatial plant community configuration (Paper I). More specifically, where environmental site condition and management variables have not impact on secondary community variability and they did not differ between the surveyed communities, plant species diversity can be deeply influenced by spatial variables (Paper II and III). On the contrary, where management variables have a strong effect on secondary community alteration, i.e. in agrarian hedgerows, this effect is independent from the landscape assets of the different surveyed sites (Paper IV). In general, the integrative methods used by the “landscape ecology approach” allowed us to quantify in a holistic way complex natural-cultural patterns and processes on different time-space scales that influenced vascular plant species diversity.
L’ecologia del paesaggio studia l’influenza dei pattern spaziali sui flussi di specie. La continua frammentazione ed alterazione delle fitocenosi in paesaggi antropizzati rende necessario comprendere le dinamiche delle comunità vegetali che caratterizzano il paesaggio antropizzato, cercando di evitare il più possibile la perdita di diversità biologica che spesso è conseguenza di tali trasformazioni. La mia tesi è basata su tre articoli di ricerca riguardanti l’analisi della diversità della flora vascolare in fitocenosi secondarie e frammentate. In un lavoro di review invece, è stato analizzato l’effetto della riforestazione spontanea su fitocenosi secondarie a seguito dell’abbandono delle pratiche agricole. Ciascun lavoro è stato caratterizzato da specifici obiettivi, adattati in base alla variabilità del paesaggio e del tipo di fitocenosi secondaria indagata. Ciononostante, l’obiettivo comune di questa tesi è stato quello di esaminare l’influenza delle variabili di paesaggio e gestionali sulla variabilità della flora vascolare, tramite l’utilizzo di metodologie e strumenti propri dell’ecologia del paesaggio. Le analisi sono state effettuate in tre fitocenosi secondarie e frammentate, i.e. pascoli (Paper II), neoformazioni boschive (Paper III) e siepi rurali (Paper IV), inserite all’interno di differenti matrici paesaggistiche. Il terzo caso di studio (Paper III) è stato sviluppato in collaborazione con la Technische Universität di Berlino durante il mio periodo di dottorato all’estero. Le analisi sono state effettuate sia a livello di patch che di paesaggio, considerando quindi congiuntamente i rilievi floristici e le variabili gestionali (livello di patch) e l’analisi dell’assetto paesaggistico attorno alle fitocenosi indagate (livello di paesaggio). Le analisi di paesaggio sono state effettuate tramite strumenti GIS. Vari modelli di regressione sono stati utilizzati per mettere in relazione la diversità di specie vascolari con le variabili di paesaggio e gestionali. La sopravvivenza delle specie dipende profondamente dalle dinamiche del paesaggio e dalla sua configurazione spaziale (Paper I). Più nello specifico, nei casi di studio in cui le variabili stazionali e gestionali sono ininfluenti o omogenee in tutti i siti, la diversità di specie vascolari è profondamente influenzata dalle variabili spaziali (Paper II e III). Dove invece la gestione altera sostanzialmente l’equilibrio della fitocenosi, l’effetto è indipendente dalle variabili di paesaggio (Paper IV). In generale, i principi ed i metodi dell’ecologia del paesaggio che sono stati utilizzati nei casi di studio presentati, hanno permesso di quantificare precisamente i processi e le dinamiche che influenzano la diversità di specie vascolari a differnti scale spaziali e temporali.
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Forster, Paul I. « The pursuit of plants : studies on the systematics, ecology and chemistry of the vascular flora of Australia and related regions / ». [St. Lucia, Qld], 2004. http://www.library.uq.edu.au/pdfserve.php?image=thesisabs/absthe18317.pdf.

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Vanderplank, Sula E. « The Vascular Flora of Greater San Quintín, Baja California, Mexico ». Scholarship @ Claremont, 2010. http://scholarship.claremont.edu/cgu_etd/2.

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The plants of San Quintín (Baja California, Mexico) were documented through intensive fieldwork and the collection of herbarium specimens to create a checklist of species. This region is home to a diverse flora with high levels of local endemism and many rare plants. The flora documented in this study was compared to historical records from the region and shows the impact of agriculture and urbanization on the plants, including several extirpated species. A study of the perennial vegetation using a 1 km grid provides species distribution data for 140 native species, which were assessed to highlight areas of significant species richness for native, rare, and endemic taxa. Several non-native plants were also mapped to provide baseline data. Areas of conservation priority for the flora of Greater San Quintín are discussed in light of these combined findings.
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Zinko, Ursula. « Plants go with the flow : predicting spatial distribution of plant species in the boreal forest ». Doctoral thesis, Umeå : Ekologi och geovetenskap, Univ, 2004. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-315.

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Livres sur le sujet "Ecology of Vascular Plants"

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Ulrich, Lüttge, et International Botanical Congress (14th : 1987 : Berlin, Germany), dir. Vascular plants as epiphytes : Evolution and ecophysiology. Berlin : Springer-Verlag, 1989.

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W, Skinner Mark, Pavlik Bruce M et California Native Plant Society, dir. California Native Plant Society's inventory of rare and endangered vascular plants of California. 5e éd. Sacramento, CA : California Native Plant Society, 1994.

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Szwed, Wojciech. Ecological scale of chosen vascular plants of the subalpine and alpine zones in Babia Góra massif. Warszawa : Państwowe Wydawn. Nauk., 1986.

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Coxe, Robert E. Vascular flora of the Fernow experimental forest and adjacent portions of the Otter Creek Wilderness Area. Newtown Square, PA : USDA Forest Service, 2006.

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Moe, L. Maynard. A key to vascular plant species of Kern County, California. Sacramento, CA : California Native Plant Society, 1995.

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Paltto, Heidi. Oak-rich temperate forests : Conservation ecology of cryptogams and vascular plants at local and landscape level. Göteborg : Göteborg University, 2008.

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The synanthropisation of vascular plant flora of mires in the coastal zone (Kashubian coastal region, N Poland) : Range, reasons for, and spatial characteristics. Łódź : Polskie Tow. Botaniczne, 2008.

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J, Sullivan Michael. An evaluation of the importance of algae and vascular plants in salt marsh food webs using stable isotope analyses. [Ocean Springs, Miss.?] : Mississippi-Alabama Sea Grant Consortium, 1988.

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Pedro, Sánchez Gómez, dir. Plantas vasculares endémicas, amenazadas o raras de la provincia de Albacete. Albacete : Instituto de Estudios Albacetenses de la Excma. Diputación de Albacete, 1997.

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Martynenko, V. A. Konspekt flory nat︠s︡ionalʹnogo parka "I︠U︡gyd-Va", Respublika Komi = Check list of vascular plants of National Park "Yugyd-Va", Komi Republic. Ekaterinburg : UrO RAN, 2003.

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Chapitres de livres sur le sujet "Ecology of Vascular Plants"

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Zotz, Gerhard. « Physiological Ecology ». Dans Plants on Plants – The Biology of Vascular Epiphytes, 95–148. Cham : Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-39237-0_5.

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Borum, Jens, Renee K. Gruber et W. Michael Kemp. « Seagrass and Related Submersed Vascular Plants ». Dans Estuarine Ecology, 111–27. Hoboken, NJ, USA : John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118412787.ch5.

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Valdez-Hernández, Mirna, Claudia González-Salvatierra, Casandra Reyes-García, Paula C. Jackson et José Luis Andrade. « Physiological Ecology of Vascular Plants ». Dans Biodiversity and Conservation of the Yucatán Peninsula, 97–129. Cham : Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-06529-8_5.

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Elakovich, Stella D. « Bioassays Applied to Allelopathic Herbaceous Vascular Hydrophytes ». Dans Principles and Practices in Plant Ecology, 45–56. Boca Raton : CRC Press, 2023. http://dx.doi.org/10.1201/9780203742181-7.

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Linares-Palomino, Reynaldo, Victor Cardona, Ernest I. Hennig, Isabell Hensen, Doreen Hoffmann, Jasmin Lendzion, Daniel Soto, Sebastian K. Herzog et Michael Kessler. « Non-woody life-form contribution to vascular plant species richness in a tropical American forest ». Dans Forest Ecology, 87–99. Dordrecht : Springer Netherlands, 2008. http://dx.doi.org/10.1007/978-90-481-2795-5_8.

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Teixeira, Lia C. R. S., Raquel S. Peixoto et Alexandre S. Rosado. « Bacterial Diversity in Rhizosphere Soil from Antarctic Vascular Plants of Admiralty Bay in Maritime Antarctica ». Dans Molecular Microbial Ecology of the Rhizosphere, 1105–12. Hoboken, NJ, USA : John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118297674.ch105.

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Odum, William E., et John K. Hoover. « A Comparison of Vascular Plant Communities in Tidal Freshwater and Saltwater Marshes ». Dans The Ecology and Management of Wetlands, 526–34. New York, NY : Springer US, 1988. http://dx.doi.org/10.1007/978-1-4684-8378-9_43.

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Odum, William E., et John K. Hoover. « A Comparison of Vascular Plant Communities in Tidal Freshwater and Saltwater Marshes ». Dans The Ecology and Management of Wetlands, 526–34. Boston, MA : Springer US, 1988. http://dx.doi.org/10.1007/978-1-4684-7392-6_43.

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Leuschner, Christoph, et Heinz Ellenberg. « Syntaxonomic Overview of the Vascular Plant Communities of Central Europe : Forest and Scrub Formations ». Dans Ecology of Central European Forests, 775–79. Cham : Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-43042-3_12.

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Catalano, Chiara, Salvatore Pasta et Riccardo Guarino. « A Plant Sociological Procedure for the Ecological Design and Enhancement of Urban Green Infrastructure ». Dans Future City, 31–60. Cham : Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-75929-2_3.

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AbstractUrban green infrastructure could represent an important mean for environmental mitigation, if designed according to the principles of restoration ecology. Moreover, if suitably executed, managed and sized, they may be assimilated to meta-populations of natural habitats, deserving to be included in the biodiversity monitoring networks. In this chapter, we combined automatised and expert opinion-based procedures in order to select the vascular plant assemblages to populate different microhabitats (differing in terms of light and moisture) co-occurring on an existing green roof in Zurich (Switzerland). Our results lead to identify three main plant species groups, which prove to be the most suitable for the target roof. These guilds belong to mesoxeric perennial grasslands (Festuco-Brometea), nitrophilous ephemeral communities (Stellarietea mediae) and drought-tolerant pioneer species linked to nutrient-poor soils (Koelerio-Corynephoretea). Some ruderal and stress-tolerant species referred to the class Artemisietea vulgaris appear to fit well with local roof characteristics, too. Inspired by plant sociology, this method also considers conservation issues, analysing whether the plants selected through our procedure were characteristic of habitats of conservation interest according to Swiss and European laws and directives. Selecting plant species with different life cycles and life traits may lead to higher plant species richness, which in turn may improve the functional complexity and the ecosystem services provided by green roofs and green infrastructure in general.
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Actes de conférences sur le sujet "Ecology of Vascular Plants"

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Tchouassi, David P. « Role of leguminous plants in sandfly chemical ecology ». Dans 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.94380.

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Leslie, Andrew. « GENOME DUPLICATION AND REPRODUCTIVE COMPLEXITY IN VASCULAR PLANTS ». Dans GSA Connects 2023 Meeting in Pittsburgh, Pennsylvania. Geological Society of America, 2023. http://dx.doi.org/10.1130/abs/2023am-390684.

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Tkacheva, E. S. « Physiological activity of vascular hemostasis in lactating cows ». Dans INTERNATIONAL CONFERENCE “SUSTAINABLE DEVELOPMENT : VETERINARY MEDICINE, AGRICULTURE, ENGINEERING AND ECOLOGY” (VMAEE2022). AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0148232.

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Zavalishina, S. Yu. « Physiological activity of vascular hemostasis in lactating cows ». Dans INTERNATIONAL CONFERENCE “SUSTAINABLE DEVELOPMENT : VETERINARY MEDICINE, AGRICULTURE, ENGINEERING AND ECOLOGY” (VMAEE2022). AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0148374.

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Sarbayev, Grigory, et Yuliya Ivanova. « ECOLOGY OF THE ARCTIC : CURRENT PROBLEMS ». Dans Development of legal systems in Russia and foreign countries : problems of theory and practices. ru : Publishing Center RIOR, 2022. http://dx.doi.org/10.29039/02090-6-0-121-129.

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The Arctic is one of the most fragile ecosystems on the planet. Few animals and plants have managed to adapt to life in such extreme, uncomfortable conditions. Even small ecological changes in this area can lead to the disappearance of a number of species of animals and plants.
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Sheremetova, S. A., et I. A. Khrustaleva. « VASCULAR PLANTS OF KUZBASS — THE CURRENT STATE OF RESEARCH ». Dans VI Международная конференция "Проблемы промышленной ботаники индустриально развитых регионов". Кемерово : Федеральный исследовательский центр угля и углехимии Сибирского отделения Российской академии наук, 2021. http://dx.doi.org/10.53650/9785902305606_25.

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Erokhina, T. N., S. K. Zavriev, D. Y. Ryazantsev et S. Y. Morozov. « PEPTIDES ENCODED BY PRECURSOR TRANSCRIPTS OF MICRO-RNAs IN PLANTS ». Dans NOVEL TECHNOLOGIES IN MEDICINE, BIOLOGY, PHARMACOLOGY AND ECOLOGY. Institute of information technology, 2022. http://dx.doi.org/10.47501/978-5-6044060-2-1.78-86.

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The article discusses new data obtained in the study of the functions of a conservative peptide of cabbage plants, which is encoded by the microRNA156a. Comparative analysis of the nucleotide sequences of the promoter regions of these genes allowed us to identify a highly conserved 42-residue block located before the starting point of pri-miR156a transcription at a distance of 210-260 base pairs. It was found that promoter fragments containing a highly con-served block have a significantly higher ability to bind miPEP156a in vitro. We carried out mutagenesis of a highly conserved promoter block in its central part, which includes a tetramer of TG dinucleotides. It has been shown that the introduction of mutations into the promoter tetramer of TG dinucleotides significantly reduces the affinity of the promoter DNA to miPEP156a. The miPEPs revealed in plants have been found only in dicotyledons. The question of how miPEPs are distributed in other plant taxa is very important for understanding the evo-lutionary origin of such micropeptides. As an initial approach, we searched for taxonomically conservative miPEPs in mosses, since microRNAs have been studied in a great detail in the case of Physcomitrium patens moss. For two genes in the region preceding the Ppt-pre-miR160a sequence, rather short open reading frames were found that encoded peptides having a clear similarity of amino acid sequences in the central region. Importantly, such highly con-served peptide block homologous to that encoded by Ppt-miPEP160a gene was detected in short proteins encoded in pri-miR160a in almost 20 Bryopsida mosses.
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Bartusek, Stanislav. « POTENTIAL IMPACTS OF WIND POWER PLANTS ON HUMAN HEALTH ». Dans 14th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION. Stef92 Technology, 2014. http://dx.doi.org/10.5593/sgem2014/b51/s20.072.

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Kaniuk, Gennadii, Andrii Mezeria, Tetiana Fursova, Olena Blyznychenko et Maksym Kaniuk. « The conceptual basis of energy-efficient and precision control of turbo-generator plants ». Dans TRANSPORT, ECOLOGY, SUSTAINABLE DEVELOPMENT : EKO VARNA 2023. AIP Publishing, 2024. http://dx.doi.org/10.1063/5.0191724.

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Kralikova, Ruzena. « APPROACH TO DESIGN OF ENERGY SAVING ILLUMINATION IN INDUSTRY PLANTS ». Dans 14th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION. Stef92 Technology, 2014. http://dx.doi.org/10.5593/sgem2014/b51/s20.006.

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Rapports d'organisations sur le sujet "Ecology of Vascular Plants"

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Wade, Gary L., Jonathan A. Myers, Cecilia R. Martin, Kathie Detmar, William, III Mator, Mark J. Twery et Mike Rechlin. Vascular Plant Species of the Forest Ecology Research and Demonstration Area, Paul Smith's, New York. Newtown Square, PA : U.S. Department of Agriculture, Forest Service, Northeastern Research Station, 2003. http://dx.doi.org/10.2737/ne-rn-380.

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Sackschewsky, Michael R., et Janelle L. Downs. Vascular Plants of the Hanford Site. Office of Scientific and Technical Information (OSTI), septembre 2001. http://dx.doi.org/10.2172/789922.

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Sackschewsky, Michael R., et Janelle L. Downs. Vascular Plants of the Hanford Site. Office of Scientific and Technical Information (OSTI), septembre 2001. http://dx.doi.org/10.2172/965728.

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Brown, Richard M, Jr, et Inder Mohan Saxena. Cellulose synthesizing Complexes in Vascular Plants andProcaryotes. Office of Scientific and Technical Information (OSTI), juillet 2009. http://dx.doi.org/10.2172/958293.

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Lackschewitz, Klaus. Vascular plants of west-central Montana-identification guidebook. Ogden, UT : U.S. Department of Agriculture, Forest Service, Intermountain Research Station, 1991. http://dx.doi.org/10.2737/int-gtr-277.

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Larson, Gary E. Aquatic and wetland vascular plants of the northern Great Plains. Ft. Collins, CO : U.S. Department of Agriculture, Forest Service, Rocky Mountain Forest and Range Experiment Station, 1993. http://dx.doi.org/10.2737/rm-gtr-238.

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Foxx, T., L. Pierce, G. Tierney et L. Hansen. Annotated checklist and database for vascular plants of the Jemez Mountains. Office of Scientific and Technical Information (OSTI), mars 1998. http://dx.doi.org/10.2172/589248.

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Brace, Sarah, David L. Peterson et Darci Bowers. A guide to ozone injury in vascular plants of the Pacific Northwest. Portland, OR : U.S. Department of Agriculture, Forest Service, Pacific Northwest Research Station, 1999. http://dx.doi.org/10.2737/pnw-gtr-446.

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Awl, D. J., L. R. Pounds, B. A. Rosensteel, A. L. King et P. A. Hamlett. Survey of protected vascular plants on the Oak Ridge Reservation, Oak Ridge, Tennessee. Office of Scientific and Technical Information (OSTI), juin 1996. http://dx.doi.org/10.2172/262979.

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Hazlett, Donald L., Michael H. Schiebout et Paulette L. Ford. Vascular plants and a brief history of the Kiowa and Rita Blanca National Grasslands. Ft. Collins, CO : U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 2009. http://dx.doi.org/10.2737/rmrs-gtr-233.

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