Relevant bibliographies by topics / Bryophytes

Academic literature on the topic 'Bryophytes'

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Published: 4 June 2021
Last updated: 30 July 2024

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Journal articles on the topic "Bryophytes"

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Fastanti, Fandri Sofiana, and Tri Yuni Indah Wulansari. "DYNAMICS OF BRYOPHYTES SPECIES DIVERSITY IN THE LOWLAND ECOSYSTEMS, CIBINONG SCIENCE CENTER-BOTANICAL GARDEN." Jurnal Ilmiah Biologi Eksperimen dan Keanekaragaman Hayati (J-BEKH) 8, no. 2 (December 30, 2021): 8–17. http://dx.doi.org/10.23960/jbekh.v8i2.194.

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Bryophytes are a group of plants generally with small sizes and spores as generative reproduction. There are three main groups of Bryophytes: liverworts or hepatics (Marchantiophyta), mosses (Bryophyta), and hornworts (Anthocerophyta). They are found in almost all ecosystems. Ecopark Cibinong Science Center-Botanical Garden (CSC-BG) is a lowland ecosystem protection area located in industrial cities. The bryophytes species that were carried out in 2009 and 2010 are inadequate. Re-exploration activity was carried out from June 2018 until January 2019 in all blocks of Ecopark. This study aims to report an update of bryophytes data in Ecopark. A total of 20 species of bryophytes were found in this research. Fissidens is the most common genus of bryophytes. There are 11 species of bryophytes and 9 species are new data records for Ecopark CSC-BG. This study updated bryophyte diversity data from Ecopark CSC-BG in 2009 and 2010, resulting in the discovery of 30 species (27 species mosses, 3 species liverworts), including 10 species not found in previous studies. There are no hornworts found in Ecopark CSC-BG.
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Motti, Riccardo, Anna Di Palma, and Bruna de Falco. "Bryophytes Used in Folk Medicine: An Ethnobotanical Overview." Horticulturae 9, no. 2 (January 19, 2023): 137. http://dx.doi.org/10.3390/horticulturae9020137.

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Bryophytes are considered the oldest living plants of terrestrial habitats and the closest modern relatives of the ancestors of the earliest terrestrial plants. Bryophytes are found on all continents and occupy xeric to aquatic niches, with the greatest diversity and biomass in cool temperate regions. Despite the lesser popularity of these organisms, bryophytes have ethnopharmacological importance in different cultures of the world, especially in Chinese, Indian, and Native American medicine. Different bryophyte extracts and isolated compounds have shown anti-microbial, antiviral, and cytotoxic effects. The present overview aims to highlight the use of bryophytes for the treatment of common ailments in folk medicine around the world and to collect, analyze, and summarize the available literature on the pharmacological activity of the most used mosses and liverworts. Based on the literature review, 109 wild taxa of Bryophyta being used for ethnomedical purposes have been documented. Overall, 170 uses were recorded for the 109 taxa considered. Herbal remedies for skin and hair care are by far the most commonly reported (25.0%); antipyretic uses of bryophytes account for 12.2%, while taxa used as medicinal treatments for respiratory and gastro-intestinal systems amount to 12.1% and 9.9%, respectively.
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Chen, Yun, Senlin Wang, Wenxin Liu, Fengqin Liu, Yizhen Shao, Jing Wang, and Zhiliang Yuan. "Associations between Epiphytic Bryophyte and Woody Plant Species in a Temperate Deciduous Broad-Leaved Forest." Diversity 14, no. 11 (November 14, 2022): 979. http://dx.doi.org/10.3390/d14110979.

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Determining whether epiphytic bryophytes have ecological preferences for woody plants remains difficult. Here, our primary aim in developing the torus-translation test is to evaluate the associations between epiphytic bryophytes and woody plants at the species, genus, or family levels in a 100 m × 100 m forest dynamics plot in a temperate, deciduous broad-leaved forest (China). We collected all the epiphytic bryophyte species on woody plants and recorded the woody plant species in the 1-ha plot in 2020. All the epiphytic bryophytes on the trees from the ground level up to 2 m were collected. We recorded 988 epiphytic bryophyte specimens belonging to 61 species in 254 woody plants. The Torus-translation test showed that 93.44% (57/61), 93.44% (57/61), and 98.36% (60/61) of the bryophyte species were significantly positively associated with the family, genus, and species of woody plants, respectively. A total of 317, 563, and 857 significant positive associations concerning the family, genus, and species of the woody plants were observed among the 61 examined bryophyte species. In addition, few significant negative associations were identified regarding the family, genus, and species of woody plants. More rare bryophyte species were positively correlated with woody plants than dominant bryophyte species. Our study demonstrates that most epiphytic bryophytes exhibit ecological habitat preferences for woody plants. These observations highlight the importance of the species composition of woody plants with respect to the maintenance of epiphytic bryophytes’ diversity. Epiphytic bryophytes’ growth preference for woody plants, especially rare bryophyte species, should be considered in the process of bryophyte diversity conservation in temperate, deciduous broad-leaved forests.
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Turunen, Jarno, Timo Muotka, and Jukka Aroviita. "Aquatic bryophytes play a key role in sediment-stressed boreal headwater streams." Hydrobiologia 847, no. 2 (November 14, 2019): 605–15. http://dx.doi.org/10.1007/s10750-019-04124-w.

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AbstractForestry-related land use can cause increasing instream sedimentation, burying and eradicating stream bryophytes, with severe ecological consequences. However, there is limited understanding of the relative roles and overall importance of the two frequently co-occurring stressors, increased fine sediments and loss of bryophytes, to stream biodiversity and ecosystem functions. By using random forest modeling and partial dependence functions, we studied the relative importance of stream bryophytes and fine sediments to multiple biological endpoints (leaf-decaying fungi, diatom, bryophyte, and benthic macroinvertebrate communities; leaf decomposition) using field survey data from headwater streams. Stream bryophyte abundance and richness were negatively related to fine sediment cover, highlighting the detrimental effect of sedimentation on bryophytes. However, bryophyte abundance was consistently more important a determinant of variation in community composition than was fine sediment cover. Leaf decomposition was influenced by shredder abundance, water temperature and, to a lesser degree, stream size. Our results suggest that the loss of stream bryophytes due to increasing sedimentation, rather than fine sediments per se, seems to be the key factor affecting multiple biological responses. Enhancing the re-establishment of bryophyte stands could partly compensate for the negative impacts of sedimentation on bryophytes and, consequently, on several other components of boreal stream ecosystems.
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Tsabituddinillah, Sarah, Afiatry Putrika, Niarsi Merry Hemelda, Andi Salamah, Windri Handayani, Astari Dwiranti, and Mega Atria. "Karakteristik Lumut di Ruang Terbuka Hijau (RTH) di Area Permukiman Jakarta Selatan." Al-Kauniyah: Jurnal Biologi 16, no. 1 (April 30, 2023): 115–39. http://dx.doi.org/10.15408/kauniyah.v16i1.21811.

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AbstrakPermukiman merupakan salah satu ruang terbuka hijau (RTH) yang terdapat di daerah urban, khususnya Jakarta. Salah satu kelompok tumbuhan yang ditemui pada RTH tersebut adalah lumut. Keberadaan lumut di permukiman urban menunjukkan adanya kemampuan lumut untuk bertahan pada lingkungan yang terganggu. Penelitian ini bertujuan untuk mengetahui spesies lumut serta karakteristik lumut di salah satu permukiman Jakarta Selatan. Lumut dikoleksi dengan metode transect-line pada 6 titik tepi jalan dan jelajah bebas pada 3 taman di permukiman tersebut Jakarta Selatan. Pengamatan karakteristik morfologi dan anatomi lumut dilakukan dengan penilaian kualitatif dan kuantitatif. Berdasarkan hasil penelitian terdapat 2 divisi lumut, yaitu Bryophyta (lumut sejati) dan Marchantiophyta (lumut hati) di lokasi penelitian. Bryophyta terdiri dari 6 famili, 9 genus, dan 16 spesies. Sementara itu, Marchantiophyta terdiri dari 2 famili, 2 genus, dan 3 spesies. Pottiaceae merupakan famili dengan jumlah spesies terbanyak ditemukan, yaitu 5 spesies. Fissidens biformis adalah spesies dengan jumlah sampel terbanyak. Lumut tersebut ditemukan pada substrat tanah, batu, dan batang pohon. Kisaran luas tutupan lumut yang ditemukan yaitu 2–100%. Karakteristik seperti ukuran tubuh yang kecil, bentuk hidup, bentuk daun, ornamentasi pada permukaan daun, modifikasi sel daun, serta keberadaan sporofit atau gemma diduga mendukung lumut beradaptasi di lingkungan urban.AbstractSettlement is one of urban green open spaces in Jakarta. One of the plant groups found in the open green spaces is the bryophytes. The presence of bryophytes in the settlement areas indicates the ability of bryophytes to survive in a disturbed environment. This study aims to determine bryophytes species and their characteristic in the settlements area of South Jakarta. Bryophyte collected by transect-line at 6 sites of roadside and broad survey at 3 sites of park. The morphological and anatomical characteristics were observed with qualitative and quantitative assessments. Mosses and liverworts are groups that found in study sites. The mosses consists of 6 families, 9 genera, and 16 species. Meanwhile, the liverworts consists of 2 families, 2 genera, and 3 species. Pottiaceae is has the highest species richness in the location. Meanwhile the highest number of samples was Fissidens biformis. The bryophytes were attached in the soil, rock, and tree trunk. The coverage of bryophyte is about 2–100%. Characteristics such as small body size, life-forms, leaf shape, the ornamentation on the leaf surface, modified leaf cells, and the presence of sporophyte or gemmae are thought to support the adaptation of bryophyte in urban environments.
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Shao, Yizhen, Senlin Wang, Yushan Li, Yun Chen, He Zhao, Jing Wang, Fengqin Liu, and Zhiliang Yuan. "Importance of Bark Physicochemical Properties in an Epiphytic Bryophyte Community within a Temperate Deciduous Broadleaf Forest." Diversity 15, no. 5 (May 19, 2023): 688. http://dx.doi.org/10.3390/d15050688.

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Epiphytic bryophytes are important components of forest ecosystems and play important roles in maintaining biodiversity and ecosystem function. However, the main factors driving epiphytic bryophyte diversity remain unclear. We collected the tree epiphytic bryophytes from a one-hectare plot within a temperate deciduous broadleaf forest (China). Canonical correspondence analyses and Mantel tests were used to establish linear regression models and thus dissect the effects of environmental variables (topography, light and bark physicochemical properties) on the species diversity, functional diversity, and phylogenetic diversity of epiphytic bryophytes. The relationship between environmental variables and epiphytic bryophyte diversity was analyzed using piecewise structural equation modeling. Results showed that the physicochemical properties of the bark directly influenced the species diversity and phylogenetic diversity of the epiphytic bryophytes. The physical and chemical properties of bark also indirectly affected the functional diversity of the epiphytic bryophytes. Elucidation of the factors driving epiphytic bryophyte diversity provides insights into their conservation.
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MAMCHUR, Zvenyslava, Yuriy DRACH, Marina RAGULINA, Sergii PRYTULA, and Halyna ANTONYAK. "SUBSTRATE GROUPS OF BRYOPHYTES IN THE TERRITORY OF THE ZNESINNYA REGIONAL LANDSCAPE PARK (LVIV, UKRAINE)." Contribuţii Botanice 56 (November 19, 2021): 65–77. http://dx.doi.org/10.24193/contrib.bot.56.7.

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The article presents data on the diversity and substrate groups of bryoflora of the Znesinnya Regional Landscape Park (Znesinnya RLP), located in the city of Lviv (Western Ukraine). Based on field research carried out in the period 2015-2018 and analysis of herbarium collections, an inventory was made of the bryoflora of the Znesinnya RLP. A total of 113 species of bryoflora belonging to 66 genera, 35 families and 2 divisions are presented from the investigated area. Of these, 105 species are members of the division Bryophyta and 8 belong to Marchantiophyta. Six regionally rare species of bryophytes have been recorded, namely Pellia endiviifolia, P. epiphylla, Encalypta streptocarpa, Fissidens exilis, Cirriphyllum crassinervium and Sciurohypnum starkei. With regard to substrate preferences, epigeous species of bryophytes predominated and accounted for 89.0% of the total number of species. The largest proportion of bryophytes occurred on bare soil (46.0%), while 36.3% and 25.7% species were found on soil among herbaceous vegetation and on soil with gravel, respectively. Stony substrates were colonized by 42.5% of bryophyte species, with 19.5% of species occurring on artificial stony substrates. In addition, 24.8% of the species belonged to epixils inhabiting old stumps and logs of varying degrees of decay, and the same proportion was represented by epiphytic species of bryophytes. The smallest proportion (10.7%) of bryophytes was confined to water bodies and swampy ecotopes.
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Tomescu, Alexandru M. F. "The Early Cretaceous Apple Bay flora of Vancouver Island: a hotspot of fossil bryophyte diversity." Botany 94, no. 9 (September 2016): 683–95. http://dx.doi.org/10.1139/cjb-2016-0054.

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The pre-Cenozoic bryophyte fossil record is significantly sparser than that of vascular plants or Cenozoic bryophytes. This situation has been traditionally attributed to a hypothesized low preservation potential of the plants. However, instances of excellent pre-Cenozoic bryophyte preservation and the results of experiments simulating fossilization contradict this traditional interpretation, suggesting that bryophytes have good preservation potential. Studies of an anatomically preserved Early Cretaceous (Valanginian) plant fossil assemblage on Vancouver Island (British Columbia), at Apple Bay, focusing on the cryptogamic flora, have revealed an abundant bryophyte component. The Apple Bay flora hosts one of the most diverse bryophyte assemblages worldwide, with at least nine distinct moss types (polytrichaceous, leucobryaceous, tricostate), one complex thalloid liverwort, and two other thalloid plants (representing bryophyte or pteridophyte gametophytes), which contribute a significant fraction of biodiversity to the pre-Cenozoic fossil record of bryophytes. These results (i) corroborate previous observations and studies, indicating that the preservation potential of bryophytes is much better than traditionally thought; (ii) indicate that the bryophyte fossil record is incompletely explored and many more bryophyte fossils are hidden in the rock record, awaiting discovery; and (iii) suggest that the paucity of the pre-Cenozoic bryophyte fossil record is primarily a reflection of inadequate paleobryological capacity.
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Sabovljević, Marko S., Marija V. Ćosić, Bojana Z. Jadranin, Jovana P. Pantović, Zlatko S. Giba, Milorad M. Vujičić, and Aneta D. Sabovljević. "The Conservation Physiology of Bryophytes." Plants 11, no. 10 (May 10, 2022): 1282. http://dx.doi.org/10.3390/plants11101282.

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An introduction to the conservation physiology of bryophytes is given. The insights into the problems, solutions and examples of the physiological approach to conservation within bryophyte representatives are discussed. The significance of experimental treatments of bryophytes is highlighted. The documentation of bryophyte functional traits and eco-physiological mechanisms in the conservation background for protection purposes is highlighted by the selected examples. The introduction of bryophytes into a new scientific field is resumed and some insights from specific case studies are presented.
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Rykovsky, Gennadiy, Marina Mal'ko, and Anastasia Sakovich. "Epixylic component of bryoflora of the Polesye Region." Diversity of plant world 3 (10) (December 6, 2021): 5–27. http://dx.doi.org/10.22281/2686-9713-2021-3-5-27.

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The article gives a detailed description of the epixylic component of bryoflora of the Polesye Region on the terri-tory of Belarus, Russia and Ukraine. According to the results of a long-term comprehensive study of the Polesye bryocomponent, 468 species of bryophytes from three divisions have been recorded to date: Anthocerotophyta, Bryophyta, Marchantiophyta. On rotting and decaying wood, 159 species were identified, including 52 species belonging to the division Marchantiophyta, 107 – Bryophyta. The most representative in terms of species diver-sity are the family of liverworts Scapaniaceae, Cephaloziaceae, Calypogeaceae, Aneuraceae and Lophocoleace-ae, mosses – Brachytheciaceae, Amblystegiaceae, Dicranaceae, Hypnaceae and Mniaceae. The distribution of bryophyte species depending on the degree of decomposition of wood is shown, the forms of growth of bryophytes are considered, and hydromorphs are analyzed. An annotated list of bryoepixyls of the Polesye Region has been compiled. The systematic position, main synonyms, growing conditions, distribution in regions, ecological features, and occurrence are indicated for each species.
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Dissertations / Theses on the topic "Bryophytes"

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Loo, Min Jet. "Bryophytes conservation in Sabah." Doctoral thesis, Università degli studi di Padova, 2012. http://hdl.handle.net/11577/3422582.

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Kinabalu National Park (KNP) has the status as forest reserve class VI: virgin jungle forest in Malaysia. In 2000, it also has been recognized by UNESCO for its “outstanding universal values”. With an area size of 754 Km² and the highest peak at 4,095.2 metres, it provides a diversed habitat for ecologically important flora and fauna. Thus, from the Dipterocarp forest (lowland) to the sub-alpine forest (highland), each forest type offers different benefits to us. Ecologically speaking, montane forest (1200 - 2700m) is essential primarily as water catchment area though, this ecosystem often being forgotten due to its “low economic values” perceived by ordinary people. In fact, its economic value is high but since less people know about its free ecosystem services, it is unfairly assumed as less important in comparison to other type of forest, such as mangrove forest. In addition to that, the dominant communities inside the montane forest are bryophytes or in laymen’s term as mosses. In a nutshell, the functioning component of the moist and foggy forest is the mossy forest. As a reference to the bryodiversity in KNP, there are around 8000 species of bryophytes checklisted in the Malesian region.
Kinabalu National Park (KNP) ha lo status di riserva forestale classe VI: giungla, foresta vergine in Malesia. Nel 2000, inoltre è stato riconosciuto dall'UNESCO per i suoi "valori universali" in circolazione. Con una dimensione di un'area di 754 km ² e la cima più alta a 4,095.2 metri, fornisce un habitat per la flora diversed ecologicamente importanti e fauna. Così, dalla foresta dipterocarp (pianura) al sub-alpino forestale (altopiano), ogni tipo di foresta offre diversi vantaggi a noi. Ecologicamente parlando, foreste montane (1200 - 2700) è essenziale in primo luogo come bacino idrografico, però, questo ecosistema essendo spesso dimenticata a causa dei suoi "valori bassi economici" percepiti dalla gente comune. Infatti, il suo valore economico è alto ma dal momento che meno gente conoscere i suoi servizi ecosistemici gratuiti, è ingiustamente assunto come meno importante rispetto ad altro tipo di foresta, come la foresta di mangrovie. In aggiunta a ciò, le comunità dominanti all'interno della foresta di montagna sono briofite o in termini laici di come muschi. In poche parole, il componente funzionamento della foresta umida e nebbiosa è la foresta di muschio. Come riferimento alla bryodiversity in KNP, ci sono circa 8000 specie di briofite checklisted nella regione Malese.
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Gabriel, Rosalina Maria de Almeida. "Ecophysiology of Azorean forest bryophytes." Thesis, Imperial College London, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.326158.

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Lönnell, Niklas. "Dispersal of bryophytes across landscapes." Doctoral thesis, Stockholms universitet, Institutionen för ekologi, miljö och botanik, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-100064.

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Dispersal, especially long-distance dispersal, is an important component in many disciplines within biology. Many species are passively dispersed by wind, not least spore-dispersed organisms. In this thesis I investigated the dispersal capacity of bryophytes by studying the colonization patterns from local scales (100 m) to landscape scales (20 km). The dispersal distances were measured from a known source (up to 600 m away) or inferred from a connectivity measure (1–20 km). I introduced acidic clay to measure the colonization rates over one season of a pioneer moss, Discelium nudum (I–III). I also investigated which vascular plants and bryophytes that had colonized limed mires approximately 20–30 years after the first disturbance (IV). Discelium effectively colonized new disturbed substrates over one season. Most spores were deposited up to 50 meters from a source but the relationship between local colonization rates and connectivity increased with distance up to 20 km (I–III). Also calcicolous wetland bryophyte species were good colonizers over similar distances, while vascular plants in the same environment colonized less frequently. Common bryophytes that produce spores frequently were more effective colonizers, while no effect of spore size was detected (IV). A mechanistic model that take into account meteorological parameters to simulate the trajectories for spores of Discelium nudum fitted rather well to the observed colonization pattern, especially if spore release thresholds in wind variation and humidity were accounted for (III). This thesis conclude that bryophytes in open habitats can disperse effectively across landscapes given that the regional spore source is large enough (i.e. are common in the region and produce spores abundantly). For spore-dispersed organisms in open landscapes I suggest that it is often the colonization phase and not the transport that is the main bottle-neck for maintaining populations across landscapes.

At the time of the doctoral defence the following papesr were unpublished and had  a status as follows: Paper 2: Epubl ahead of print; Paper 3: Manuscript; Paper 4: Manuscript

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Zhang, Li. "Diversity and conservation of Hong Kong bryophytes." Hong Kong : University of Hong Kong, 2001. http://sunzi.lib.hku.hk:8888/cgi-bin/hkuto%5Ftoc%5Fpdf?B23316731.

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Zhang, Li, and 張力. "Diversity and conservation of Hong Kong bryophytes." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2001. http://hub.hku.hk/bib/B30138103.

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Smith, Elizabeth. "Carbon accumulating mechanisms in lichens and bryophytes." Thesis, University of Newcastle Upon Tyne, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.282765.

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Guêné-Nanchen, Mélina. "Régénération des bryophytes dans les tourbières perturbées." Doctoral thesis, Université Laval, 2018. http://hdl.handle.net/20.500.11794/33616.

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La restauration écologique des tourbières se définit comme l’ensemble des procédés permettant d’assister à la régénération d’une tourbière qui a été dégradée, endommagée ou détruite. La gamme des tourbières perturbées qui nécessitent des actions de restauration est très diversifiée. L’étude de la régénération naturelle des écosystèmes perturbés a fréquemment été utilisée pour développer des méthodes de restauration qui sont adaptées aux types spécifiques de ces écosystèmes. Une compréhension plus complète des trajectoires de régénération, des contraintes environnementales et de dispersion, ainsi que des interactions interspécifiques, est directement reliée au développement de méthodes de restauration et à l’amélioration de nos connaissances sur la réponse des espèces et des communautés à des changements environnementaux. Cette thèse étudie la régénération de la végétation, plus spécialement des bryophytes, ainsi que les facteurs influençant leur régénération dans trois cas problématiques de restauration des tourbières perturbées. Premièrement, la régénération des communautés de bryophytes a été étudiée en fonction des conditions environnementales dans 28 tourbières minérotrophes des Territoires du Nord-Ouest et de l’Alberta ayant brûlé il y a un, deux ou cinq ans. Un changement de dominance a été observé entre les bryophytes pionnières (couvert moyen passant de 16 à 11 %) et les bryophytes de succession tardive (3 à 27 %) entre la 2e et la 5e année après le feu. La répartition et l’abondance des espèces de bryophytes semblent être contrôlées par leurs différences de capacité de régénération en lien avec leur stratégie d’histoire de vie, leur niche écologique et l’effet variable de la biomasse carbonisée. L’intégration de la notion de niche écologique chez les bryophytes de succession tardive ainsi que l’utilisation des espèces ayant un fort potentiel de régénération (comme Aulacomnium palustre et Ptychostomum pseudotriquetrum) devraient être considérées lors de l’élaboration des plans de restauration des tourbières minérotrophes. Deuxièmement, la régénération des sphaignes a été étudiée dans 25 sites donneurs (tourbières ombrotrophes où la végétation de surface a été récoltée pour servir de matériel de réintroduction) sur une chronoséquence de 17 ans en fonction des conditions environnementales et des pratiques de récolte. Les sphaignes dans les sites donneurs se régénèrent en moyenne en 10 ans, quoique des différences mineures dans la composition et l’abondance des espèces ont été observées entre les sites donneurs et les tourbières naturelles. Les espèces pionnières (p. ex., Eriophorum vaginatum), compétitives (p. ex., Sphagnum rubellum) et préférentielles des microhabitats plus humides (p. ex., Chamaedaphne calyculata) étaient plus abondantes dans les sites donneurs. Les pratiques de récolte avaient l’effet le plus important sur la régénération de la végétation, suggérant qu’il est possible d’accélérer la reprise des sphaignes en adoptant des pratiques de récolte appropriées. Des pratiques responsables consistent à éviter les sites donneurs très humides et la récolte durant le milieu de l’été lorsque les mousses ont un plus faible potentiel de régénération et lorsque le risque d’enlisement de la machinerie est élevé. Troisièmement, la régénération et le développement de tapis de sphaignes ont été étudiés dans deux types de tourbières restaurées et colonisées par des plantes pionnières de type graminoïde (Cypéracées). Dans le premier cas, le Carex aquatilis dominait un fen modérément riche restauré et formait des communautés denses avec beaucoup de litière. Dans le deuxième cas, l’Eriophorum angustifolium était dominant avec un faible couvert de litière dans une tourbière à sphaignes restaurée où la densité de la plante graminoïde avait été contrôlée par coupe répétée. Il a été démontré que l’effet des plantes graminoïdes sur les tapis de sphaignes était déterminé par leur litière plutôt que par la structure de la plante elle-même. En raison de l’ombre créée par la litière compacte, la présence d’une communauté dense d’une plante graminoïde accumulant beaucoup de litière comme Carex aquatilis ne semble pas être bénéfique pour développer des tapis de sphaignes productifs. La décision de contrôler les plantes graminoïdes pour accroitre le développement des tapis de sphaignes devrait prendre en considération, bien sûr, le couvert de la plante (non requis si le couvert moyen < 30 %), mais aussi sa forme de croissance (moins essentiel lorsque la plante pousse en tige unique), de même que ses potentiels d’accumulation de litière et d’envahissement (p. ex., Phragmites australis, Scirpus cyperinus). En somme, en plus de répondre spécifiquement à trois cas problématiques de restauration de tourbières perturbées, cette thèse fournit une compréhension améliorée des processus de régénération naturelle des écosystèmes de tourbières et des facteurs qui les influencent. Les résultats ont un lien direct avec le développement d’outils pour la restauration et avec l’approfondissement de nos connaissances sur les réponses des organismes et des communautés végétales aux changements de l’environnement.
The ecological restoration of peatland is defined as all the processes permitting the regeneration of a peatland that has been degraded, damaged or destroyed. The landscape settings and types of peatlands that require restoration actions is very diverse. The study of natural regeneration of disturbed ecosystems has frequently been used to develop restoration methods that are adapted to specific types of ecosystems. A comprehensive assessment of regeneration trajectories and the environmental and dispersal constraints, as well as the interspecific interactions is directly related to the development of restoration methods and the improvement of our knowledge on the response of species and communities to environmental changes. This thesis studies the regeneration of vegetation, especially of bryophytes, and the factors influencing their regeneration in three problematic cases of restoring disturbed peatland. Firstly, the regeneration of bryophyte communities was studied against a range of environmental conditions in 28 minerotrophic peatlands in the Northwest Territories and Alberta that had burned one, two or five years ago. A shift of dominance between pioneer (mean cover from 16 to 11 %) and late successional bryophytes (from 3 to 27 %) was observed between the second and fifth year after the fire. Bryophyte distribution and abundance were controlled by the species difference in terms of regeneration capacity related to their life history strategy, habitat niche, and the variable effect of the burned biomass. The integration of the ecological niche concept for late successional bryophytes and the use of species with a high potential of regeneration (such as Aulacomnium palustre and Ptychostomum pseudotriquetrum) should be considered during the elaboration of restoration plans of minerotrophic peatlands. Secondly, the regeneration of Sphagnum mosses was studied in 25 donor sites (peatlands where surface vegetation was harvested to supply reintroduction material) on a chronosequence of 17 years according to environmental conditions and harvesting practices. It takes on average 10 years for Sphagnum mosses in donor sites to recover, though minor differences in the species composition and abundance was observed between donor sites and natural peatlands. Pioneer species (e.g., Eriophorum vaginatum), competitive species (e.g., Sphagnum rubellum) and preferential species of wet microhabitats (e.g., Chamaedaphne calyculata) were more abundant in donor sites. Harvesting practices had the greatest effect on the regeneration of donor sites, suggesting that it is possible to speed up Sphagnum regeneration by choosing appropriate management practices. Best practices would be avoiding very wet donor sites and harvesting in the midsummer should be avoided when mosses are at their lowest regeneration potential and when the risk of machinery sinking is high. Thirdly, the regeneration and development of the Sphagnum carpets were studied in two experiments conducted in two types of restored peatlands colonized by pioneer graminoid plants (Cyperaceae). In the first experiment, Carex aquatilis dominated a moderately rich restored fen and formed dense communities with a lot of litter. In the second experiment, Eriophorum angustifolium was dominant with a low cover of litter in a restored cutover Sphagnum-dominated bog where the graminoid plant cover was controlled by repeated mowing. It was demonstrated that the effect of graminoid plants on the Sphagnum carpet was determined by the litter rather than by the structure of the plant itself. Because of the shade created by the dense litter, the presence of a community of a graminoid plant that accumulates a lot of litter such as Carex aquatilis is not beneficial for the formation of productive Sphagnum carpets. The decision to control graminoid plants to enhance the growth of Sphagnum carpets should consider the cover of the plant (not necessary when mean cover < 30 %), but also its life form (less necessary when the plant grows in unique stem), its litter accumulation and potential for invasion (e.g. Phragmatis australis, Scirpus cyperinus). In conclusion, this thesis, in addition to specifically address these three problematic cases, provides a more comprehensive assessment of the processes of natural regeneration of peatland ecosystems and of driving factors. The results have a direct link with the development of tools for the restoration of peatlands and with a deeper understanding of the responses of plants and communities to environmental changes.
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Djan-Chekar, Nathalie. "The bryophyte flora of Bridal Veil Falls, British Columbia : an analysis of its composition and diversity." Thesis, Online version, 1993. https://circle.ubc.ca/bitstream/2429/1348/3/ubc_1993_spring_djan-chekar_nathalie.pdf.

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Weibull, Henrik. "Bryophytes on boulders : diversity, habitat preferences and conservation aspects /." Uppsala : Swedish Univ. of Agricultural Sciences (Sveriges lantbruksuniv.), 2000. http://epsilon.slu.se/avh/2000/99-3371261-6.pdf.

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Llewellyn, David J. "The role of bryophytes in an indoor air biofilter." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape4/PQDD_0015/MQ58353.pdf.

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Books on the topic "Bryophytes"

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Vanderpoorten, Alain, and Bernard Goffinet, eds. Introduction to Bryophytes. Cambridge: Cambridge University Press, 2009. http://dx.doi.org/10.1017/cbo9780511626838.

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N, Chopra R. Biology of bryophytes. New Delhi: Wiley Eastern, 1988.

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Alain, Vanderpoorten, and Goffinet Bernard, eds. Introduction to bryophytes. Cambridge: Cambridge University Press, 2009.

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K, Kumra P., ed. Biology of bryophytes. New York: Wiley, 1989.

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Asakawa, Yoshinori, Agnieszka Ludwiczuk, and Fumihiro Nagashima. Chemical Constituents of Bryophytes. Vienna: Springer Vienna, 2013. http://dx.doi.org/10.1007/978-3-7091-1084-3.

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Rani, S. Sandhya. Bryophytes of Andhra Pradesh. Dehra Dun, India: Bishen Singh Mahendra Pal Singh, 2014.

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author, Harpel Judith, Wagner, David H., 1945- author, and United States. Bureau of Land Management. Salem District, eds. Rare bryophytes of Oregon. Salem, Or: U.S. Department of the Interior, Bureau of Land Management, Salem District, 2016.

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Bernard, Goffinet, and Shaw A. Jonathan, eds. Bryophyte biology. 2nd ed. New York: Cambridge University Press, 2008.

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Goffinet, Bernard. Bryophyte Biology. 2nd ed. Leiden: Cambridge University Press, 2008.

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Manyanga, Phelex. A checklist of Zimbabwean bryophytes. Pretoria: Southern African Botanical Diversity Network (SABONET), 2004.

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Book chapters on the topic "Bryophytes"

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Frahm, J. P. "Bryophytes." In Inselbergs, 91–102. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/978-3-642-59773-2_6.

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Evert, Ray F., and Susan E. Eichhorn. "Bryophytes." In Raven Biology of Plants, 366–90. New York: Macmillan Learning, 2013. http://dx.doi.org/10.1007/978-1-319-15626-8_17.

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Beyschlag, Wolfram. "Bryophytes." In Biology of Algae, Lichens and Bryophytes, 475–603. Berlin, Heidelberg: Springer Berlin Heidelberg, 2024. http://dx.doi.org/10.1007/978-3-662-65712-6_7.

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Lack, Andrew, and David Evans. "The bryophytes." In Plant Biology, 273–77. 2nd ed. London: Taylor & Francis, 2021. http://dx.doi.org/10.1201/9780203002902-82.

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Geissler, Patricia. "Systematics of Bryophytes." In Progress in Botany, 383–96. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/978-3-642-56849-7_16.

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Asakawa, Yoshinori. "Phytochemistry of Bryophytes." In Phytochemicals in Human Health Protection, Nutrition, and Plant Defense, 319–42. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4689-4_12.

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Asakawa, Yoshinori. "Polyphenols in Bryophytes." In Recent Advances in Polyphenol Research, 36–66. Chichester, UK: John Wiley & Sons, Ltd, 2016. http://dx.doi.org/10.1002/9781118883303.ch2.

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Kürschner, Harald, and Shahina A. Ghazanfar. "Bryophytes and Lichens." In Vegetation of the Arabian Peninsula, 99–124. Dordrecht: Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-017-3637-4_5.

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Asakawa, Yoshinori, Agnieszka Ludwiczuk, and Fumihiro Nagashima. "Biodiversity of Bryophytes." In Chemical Constituents of Bryophytes, 17–19. Vienna: Springer Vienna, 2012. http://dx.doi.org/10.1007/978-3-7091-1084-3_2.

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Singh, Rajeev, Hema Joshi, and Anamika Singh. "Bryophytes: Natural Biomonitors." In Natural Products Chemistry, 139–53. Names: Volova, Tatiana G., editor. | Mahapatra, Debarshi Kar, editor. | Khanna, Sonia, editor. | Haghi, A. K., editor. Description: Includes bibliographical references and index.: Apple Academic Press, 2020. http://dx.doi.org/10.1201/9781003000693-7.

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Conference papers on the topic "Bryophytes"

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Rubtsova, A. V., and P. V. Butolin. "MATERIALS TO BRYOFLORA OF THE PLANNED PROTECTED AREA “UROCHISCHE GULEYSHURSKOE” (UDMURT REPUBLIC)." In Prirodopol'zovanie i ohrana prirody: Ohrana pamjatnikov prirody, biologicheskogo i landshaftnogo raznoobrazija Tomskogo Priob'ja i drugih regionov Rossii. Izdatel'stvo Tomskogo gosudarstvennogo universiteta, 2020. http://dx.doi.org/10.17223/978-5-94621-954-9-2020-17.

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The article presents data on bryoflora of the protected area «Urochische Guleyshurskoe. There are 108 species of bryophytes from 67 genuses and 37 families in the bryoflora. The families Brachytheciaceae and Sphagnaceae are leading role in the bryoflora. On the territory of the protected area, 3 bryophytes were found to grow from the regional red book, and 1 species is indicated for the first time for the bryophora of Udmurtia.
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"Natural variations in telomere lengths in different Bryophytes." In Bioinformatics of Genome Regulation and Structure/Systems Biology (BGRS/SB-2022) :. Institute of Cytology and Genetics, the Siberian Branch of the Russian Academy of Sciences, 2022. http://dx.doi.org/10.18699/sbb-2022-362.

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Sannikova, Anastasia, Margarita Sharipova, Eugene Shakirov, and Lia Valeeva. "Natural Diversity of Telomeric DNA Sequences in Bryophytes." In IECBM 2022. Basel Switzerland: MDPI, 2022. http://dx.doi.org/10.3390/iecbm2022-13740.

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Pratas, Joao. "MULTI-ELEMENT ACCUMULATION IN AQUATIC BRYOPHYTES FROM CENTRAL PORTUGAL." In 15th International Multidisciplinary Scientific GeoConference SGEM2015. Stef92 Technology, 2011. http://dx.doi.org/10.5593/sgem2015/b51/s20.075.

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Chasov, A. V., A. O. Onele, T. V. Trifonova, L. V. Viktorova, and F. V. Minibaeva. "The role of peroxidase in the stress response of bryophytes." 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/10.26907/978-5-00130-204-9-2019-466.

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Ming, Xiaoyu, Yufan Ding, Panpan Cao, Chunnong Li, Linyun Tan, and Xiaofang Yu. "Present Application Status and Prospect of Bryophytes in Landscape Architecture." In Proceedings of the International Conference on Contemporary Education, Social Sciences and Ecological Studies (CESSES 2018). Paris, France: Atlantis Press, 2018. http://dx.doi.org/10.2991/cesses-18.2018.215.

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FEDOSOV, V. E., A. V. FEDOROVA, E. A. IGNATOVA, and M. S. IGNATOV. "MOLECULAR PHYLOGENETIC APPROACH REVEALS SEMICRYPTIC SPECIES AMONG COMMON EPIPHYTIC BRYOPHYTES." In 5TH MOSCOW INTERNATIONAL CONFERENCE "MOLECULAR PHYLOGENETICSAND BIODIVERSITY BIOBANKING". TORUS PRESS, 2018. http://dx.doi.org/10.30826/molphy2018-17.

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Isakova, V. G., E. I. Ivanova, and E. V. Sofronova. "Bryophytes in Red Data Book of the Republic of Sakha (Yakutia)." In The international field workshop «Cryptogams of North Asia». SIPPB SB RAS, 2018. http://dx.doi.org/10.31255/cna.irk-8-9.

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Thummel, Ryan, Caroline A. E. Stromberg, and Will Brightly. "EVOLUTION OF PHYTOLITH DEPOSITION IN MODERN BRYOPHYTES—IMPLICATIONS FOR EARLY LAND PLANTS." In GSA Annual Meeting in Seattle, Washington, USA - 2017. Geological Society of America, 2017. http://dx.doi.org/10.1130/abs/2017am-307500.

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Han, Danning. "Application of Bryophytes and Glass Pumice in Northern China LID Landscape Design." In 2017 2nd International Conference on Civil, Transportation and Environmental Engineering (ICCTE 2017). Paris, France: Atlantis Press, 2017. http://dx.doi.org/10.2991/iccte-17.2017.130.

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Reports on the topic "Bryophytes"

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Dibble, Alison C., James W. Hinds, Ralph Perron, Natalie Cleavitt, Richard L. Poirot, and Linda H. Pardo. Monitoring air quality in class I wilderness areas of the northeastern United States using lichens and bryophytes. Newtown Square, PA: U.S. Department of Agriculture, Forest Service, Northern Research Station, 2016. http://dx.doi.org/10.2737/nrs-gtr-165.

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Dibble, Alison C., James W. Hinds, Ralph Perron, Natalie Cleavitt, Richard L. Poirot, and Linda H. Pardo. Monitoring air quality in class I wilderness areas of the northeastern United States using lichens and bryophytes. Newtown Square, PA: U.S. Department of Agriculture, Forest Service, Northern Research Station, 2016. http://dx.doi.org/10.2737/nrs-gtr-165.

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Gillrich, Jennifer J., and Keith C. Bowman. The Use of Bryophytes as Indicators of Hydric Soils and Wetland Hydrology during Wetland Delineations in the United States. Fort Belvoir, VA: Defense Technical Information Center, September 2010. http://dx.doi.org/10.21236/ada536220.

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Chmielewski, Matthew. Avian Dispersal Networks, Metacommunity Structure, and Bryophyte Community Assemblages. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.6972.

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Cleavitt, Natalie L. Bryophyte survey of six research natural areas within the White Mountain National Forest, New Hampshire. Radnor, PA: U.S. Department of Agriculture, Forest Service, Northeastern Forest Experimental Station, 1996. http://dx.doi.org/10.2737/ne-gtr-225.

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Cleavitt, Natalie L. Bryophyte survey of six research natural areas within the White Mountain National Forest, New Hampshire. Radnor, PA: U.S. Department of Agriculture, Forest Service, Northeastern Forest Experimental Station, 1996. http://dx.doi.org/10.2737/ne-gtr-225.

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Hampton-Miller, Celia, and Peter Neitlich. Grazing exclosures in Bering Land Bridge National Preserve: 2012-2022 data report. National Park Service, 2024. http://dx.doi.org/10.36967/2302594.

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To monitor the impact of grazing by caribou and other ungulates on vegetation in Bering Land Bridge National Park, 17 exclosures were installed in the summer of 2012 and one in 2007. These exclosures consist of 9 by 9 m of chainlink fencing, which prevented grazers from reaching vegetation plots within. Two plots within the fencing were paired with two unexclosed plots outside the fencing. All plots were measured in 2012 for lichen, bryophyte and vascular plant cover and species composition by point intercept methods. The first remeasure of the plots took place in 2022. This report summarizes the purpose of the exclosures, the methodology, changes to the methodology over time, the data structure of the database and preliminary results of re-measure data collected in 2022.
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Inventory of lichen and bryophyte communities in the Yeon Unit of Lewis and Clark National Historical Park: Final report. National Park Service, 2023. http://dx.doi.org/10.36967/2301457.

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The 106-acre Yeon Unit of Lewis and Clark National Historic Park lies along the immediate coast eight miles north of Seaside, Oregon. The primary objective of these surveys was to capture the complete lichen and bryophyte flora of the Yeon property with focus on the remnant prairies and the salix swamp, report on any rare species observed or collected, and document the extent and population size of the rare lichen, Pannaria rubiginosa. Surveys were conducted in December 2021 and January 2022. While this report sufficiently characterizes the lichen and bryophyte flora of the Yeon property, it is not sufficient for the Sunset property. For a complete list of the non-vascular flora of the Sunset property, a more intentional survey should be conducted. Of the 46 bryophyte species recorded, none of them are considered rare by ORBIC. The species checklist reflects a bryoflora typical of Pacific Northwest coastal dune ecosystems. The collection of Dicranum rhabdocarpum needs to be verified as it is rare in Oregon and there is low confidence in the species level determination of it. The invasive moss, Camplylopus introflexus, was found throughout the site in impacted areas especially where fire management had been conducted. This moss should be monitored as it has spread throughout most areas of the dune and may displace native bryophytes and complicate ecological succession in fire/restoration areas. Lichens were found throughout the 106-acre Yeon unit, although in varying density and diversity. The fore dunes adjacent to the open sand area of the coast historically hosted the coastal prairie habitat but now this area was almost completely infested with the invasive beachgrasses Ammophila arenaria and A. breviligulata. In this area these xerophytic Ammophila species occupied nearly 100% of the terrestrial habitat and there were no trees or shrubs to provide arboreal lichen habitat. There were a few small patches of remnant prairie within the swaths of Ammophila spp. that were generally smaller than 10m?. In these areas the lichens were dominated by Cladonia, Peltigera and Scytinium species. In general, the shore pine habitat that has not been recently thinned had a dense canopy and therefore the surveyable lichen habitat had very low rates of lichen colonization. The exceptions were the areas with edge effects. The west side facing the foredunes hosted a few arboreal species. Light gaps within this forest had minimal arboreal and terrestrial species colonization. Thinned shore pine plantations had a slightly higher concentration of species richness and increased biomass due to the abundance of light that penetrates to the surveyable habitat. These were limited to fairly common species in genera such as Hypogymnia, Platismatia, and Usnea. The area with the richest lichen diversity was in the interdunal wetland and willow swamp areas. These habitats had rich and well developed cyanolichen communities.
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Relations of benthic macroinvertebrates to concentrations of trace elements in water, streambed sediments, and transplanted bryophytes and stream habitat conditions in nonmining and mining areas of the upper Colorado River basin, Colorado, 1995-98. US Geological Survey, 2002. http://dx.doi.org/10.3133/wri024139.

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Een Rode Lijst van de hauwmossen (Anthocerotophyta), levermossen (Marchantiophyta) en bladmossen (Bryophyta) van Vlaanderen. Instituut voor Natuur- en Bosonderzoek, 2017. http://dx.doi.org/10.21436/inbor.12602919.

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