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Journal articles on the topic 'Pteridophyta Pteridophyta Epiphytes. Pteridophyta'

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Published: 4 June 2021
Last updated: 9 February 2022

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1

Ulum, Fuad Bahrul, and Dwi Setyati. "Ephypitic Ferns (Pteridophyta) from Raung Mount Banyuwangi, East Java Indonesia." Jurnal ILMU DASAR 16, no. 1 (June 16, 2015): 7. http://dx.doi.org/10.19184/jid.v16i1.1486.

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An investigation of epiphytic Pteridophytes diversity at Mount Raung, Banyuwangi, East Java Province, Indonesia, was carried out in 7 February 2015. As many as 11 Pteridophytes from 3 families had been identified based on their morphological chracteristic. Among them, four species of Family Aspleniaceae, including Asplenium confusum Tardieu & Ching, Asplenium nidus L., Asplenium salignum Blume, and Asplenium tenerumoides S.B.Andrews. Polypodiaceae include Leptochilus wrightii (Hooker & Baker) X. C. Zhang, Microsorum punctatum (L.) Copel., Pyrrosia bicolor ( Kaulf. ) Ching, and Schellolepis percussa (Cav.) Pic.Serm. Vittariaceae include Antrophyum formosanum Hieron., Vittaria ensiformis Sw., and Vittaria lineata (L.) Sm. which is the smallest specimen with less than 10 cm long.Keywords: Mount Raung, Pteridophyta, Epiphytic, Families.
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2

Ayatusa'adah, Ayatusa'adah, and Nor Apriyani Dewi. "INVENTARISASI TUMBUHAN PAKU (PTERIDOPHYTA) DI KAWASAN KAMPUS IAIN PALANGKA RAYA SEBAGAI ALTERNATIF MEDIA PEMBELAJARAN MATERI KLASIFIKASI TUMBUHAN." Edu Sains: Jurnal Pendidikan Sains & Matematika 5, no. 2 (March 14, 2018): 50. http://dx.doi.org/10.23971/eds.v5i2.729.

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<p>The purpose of this research is to have an inventory on Fern-plants in the area of IAIN Palangka Raya as an alternative media to discuss or learn about the classification of plants for high school students. The method applied was qualitative research through survey activities to have an inventory on fern-plants. In collecting the data, the procedure was done by tracking the ferns growing area and collecting every kind of ferns species found in IAIN Palangka Raya. Identification of ferns species were using the key of determination. The data of the research were analyzed descriptively to get connected with the development of alternative learning media. The inventory result has been obtained eleven species of pteridophyta, one species of Blechnaceae family, two species of Pteridaceae, one species of Polypodiaceae, four species of Dryopteridaceae, two species of Polipodiacea and ome species of Woodsiaceae. Based on the nature of the ferns, eleven ferns are found. They consist of six types of terrestrial Pteridophyta, two types of Pteridophyta epiphytes and teresters, and three types of Pteridophyta epiphytes. The results of the research can be used as an alternative media for teaching and learning the topic of plant classification for high school students.</p>
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3

KESSLER, M., A. R. SMITH, and M. LEHNERT. "FOUR NEW SPECIES OF SELAGINELLA (PTERIDOPHYTA – SELAGINELLACEAE) FROM BOLIVIA." Edinburgh Journal of Botany 63, no. 1 (March 2006): 85–93. http://dx.doi.org/10.1017/s0960428606000321.

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Four new species of Selaginella from Bolivia are described and illustrated: S. alampeta, a species from humid montane forests at 1200–1700 m that is most similar to S. flexuosa; S. arroyoana, a presumably poikilohydric species found on the walls of periodically dry stream beds and in fissures among rocks on Precambrian sandstone massifs at 750–900 m in eastern Bolivia; S. bryophila, an epiphytic species known only from the type collection made among mats of liverworts in humid montane rain forest, and S. chiquitana, from semideciduous forests at 800 m on a Precambrian sandstone massif in southeastern Bolivia.
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4

Kornaś, Jan. "Life-forms and seasonal patterns in the pteridophytes in Zambia." Acta Societatis Botanicorum Poloniae 46, no. 4 (2015): 669–90. http://dx.doi.org/10.5586/asbp.1977.055.

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146 species of pteridophytes occurring in Zambia were classified into Raunkiaer's life-form classes. The hemicryptophytes are dominant and include the most widely distributed species. The phanerophytes (tree-ferns and lianas) and the epiphytes are rather scarce and limited to or concentrated in the higher-rainfall areas in the northern part of the country. Simplified diagrams of periodicity were constructed for all Zambian pteridophyte species. Three major types of seasonal pattern of growth and dormancy were distinguished: the evergreen type, the poikilohydrous type, and the "summer-green" type. The first of them is connected with the local conditions of continuously wet non-zonal sites, while the two others clearly reflect the peculiarities of the zonal climate of Zambia.
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5

David-Higuita, Heriberto, and Esteban Alvarez-Dávila. "Riqueza total de especies de plantas vasculares en un bosque andino de la Cordillera central de Colombia." Revista de Biología Tropical 66, no. 1 (December 13, 2017): 227. http://dx.doi.org/10.15517/rbt.v66i1.27548.

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Studies of plant diversity in tropical forests are usually restricted to trees or other groups of woody plants above a certain stem diameter. However, surveys that include all forms of live plants with no restrictions on their sizes, clearly indicate that non-woody plants are equally important. In this study, we reported the total species richness of vascular plants species (TSR) in one hectare plot in an Andean forest in Northwestern Colombia (6º 12' 48” N & 75º 29' 32” W). We evaluated the relative contribution of the different growth habits and the effect of the plant size, to TSR. We measured all individuals with diameter (D) ≥ 5 cm in the hectare and all the vascular plants of all sizes, including epiphytes, in a subsample of 0.25 ha. A total of 14 545 individuals distributed in 318 species, 72 families (considering Pteridophyta as one group) and 171 genera were registered. Most of the species showed a (D) < 10 cm (99.7%) and < 2.5 cm (94.4 %). The no-arboreal species (ground herbs, epiphytes and vines) represented 54.3 % of the total species reported in the plot, indicating that they are important in the structure, composition and species richness of this montane forest. Our results coincide with similar studies in other tropical forests. We concluded that to get a more detailed knowledge of the floristic diversity of a site, it is advisable to: 1) amplify the size range of the plants generally considered in the floristic inventories and 2) to include non-woody species. This information is crucial for making better decisions in local and global conservation efforts.
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6

Kornás, Jan. "Adaptive strategies of African pteridophytes to extreme environments." Proceedings of the Royal Society of Edinburgh. Section B. Biological Sciences 86 (1985): 391–96. http://dx.doi.org/10.1017/s026972700000837x.

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SynopsisWater deficiency is the key factor limiting the occurrence of pteridophytes in seasonally dry tropical areas and shaping their adaptive strategies in respect of habitat preferences, life-forms, phenological patterns, and reproductive biology. In Zambia, which is situated in the savanna woodland zone, a total of 146 pteridophyte species occur mainly in special habitats: extrazonal evergreen forest patches and initial successional stages of lithoseres and hydroseres. Life-forms with perennating buds well protected against desiccation (hemicryptophytes and geophytes) dominate, while those with more exposed buds (epiphytes, chamaephytes and phanerophytes) are much less numerous and restricted mainly to the higher-rainfall areas. Selaginella tenerrima represents the life form of a therophyte, unknown in any other pteridophyte genus. Three major seasonal patterns of growth and dormancy may be distinguished: the evergreen type (ca. 40% of species), the poikilohydrous type (ca. 20%) and the deciduous (‘summer-green’) type (ca. 40%). No less than 20% of species are able to survive recurrent bush-fires, and some of them possess the features of advanced pyrophytes. In the driest parts of the savanna zone in Africa, e.g. in the Lake Chad Basin of northeastern Nigeria, seasonal pools are remarkably rich in water ferns, especially of the genus Marsilea which has undergone an intensive adaptive radiation in this environment.
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7

Hartini, Sri. "KEANEKARAGAMAN JENIS TUMBUHAN PAKU (PTERIDOPHYTA) DI KAWASAN HUTAN TUMBANG MANGGU, KECAMATAN SANAMAN MANTIKEI, KABUPATEN KATINGAN, KALIMANTAN TENGAH." EKOLOGIA 20, no. 1 (April 30, 2020): 1–13. http://dx.doi.org/10.33751/ekologia.v20i1.1978.

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Research on the diversity of ferns in the forests of Tumbang Manggu, Sub-district Sanaman Mantikei, Central Kalimantan, has been done. The study was conducted in March – April 2016 by using explorative methods. The results show, at least 28 species of ferns were found in the forest area, of which 16 species are terrestrial ferns and 12 species of epiphytic ferns. These species are included in 22 genera and 14 families. Huperzia and Pyrrosia are most abundant, each genus were consists of 3 species. The most rich families in term number of species are Polypodiaceae and Lycopodiaceae, with 6 species and 4 species respectively. Abundance of each species in the region was different, Blechnum orientale L., Dicranopteris linearis (Burm. f.) Underw., Lycopodiella cernua (L.) Pic. Serm., and Vittaria scolopendrina (Bory) Schkuhr ex Thwaites were found in large quantities and spread almost all over the region. Asplenium nidus L., Drynaria quercifolia (L.) J. Sm., Stenochlaena palustris (Burm. f.) Bedd., Lygodium circinatum (Burm. f.) Sw., Pyrrosia lanceolata (L.) Farw., Nephrolepis falcata (Cav.) C. Chr. and Vittaria ensiformis Sw. were found in considerable numbers. Asplenium pellucidum Lam., Athyrium bantamense Milde, Helminthostachys zeylanica (L.) Hook. and Tectaria crenata Cav. were found in small quantities and only in certain places. Local communities around the region have not much utilizing the ferns yet.
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8

Sharma, Sachin, Bhupendra S. Kholia, Ramesh Kumar, and Amit Kumar. "Pteridophytic diversity in human-inhabited buffer zone of Murlen National Park, Mizoram, India." Check List 13, no. 2 (April 3, 2017): 2081. http://dx.doi.org/10.15560/13.2.2081.

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A taxonomic inventorization of pteridophytes occurring in a human inhabited buffer zone of Murlen National Park, India, was conducted in 2012 and 2013. This survey revealed 35 species belonging to 27 genera and 15 families. Polypodiaceae was recorded as dominant family, represented by six genera and eight species, followed by Pteridaceae (three genera and six species) and Lycopodiaceae (three genera and four species). Of the recorded species, 23 species were terrestrial, 11 (epiphytic) and two (lithophytic) in their habit forms. The species richness was highest in Tualpui village, with 11 species, followed by Rabung (7) and Ngur (6). The site preference of species among the villages is discussed. These data will provide baseline for future research and monitoring of pteridophytic vegetation in this protected area, as well as in similar habitats in the adjacent areas.
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9

Acuña-Tarazona, Margoth, Tarin Toledo-Aceves, Alejandro Flores-Palacios, Vinicio J. Sosa, and M. Luisa Martínez. "Post-stripping recolonization of vascular epiphytes in cloud-forest fragments in Mexico." Journal of Tropical Ecology 31, no. 6 (August 12, 2015): 499–508. http://dx.doi.org/10.1017/s0266467415000395.

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Abstract:The response of vascular epiphyte communities following natural or human disturbance has been little studied. Over 5 y, we evaluated the post-stripping recolonization of vascular epiphytes in cloud forest. Vascular epiphytes were experimentally removed from branch and trunk plots (1 m in length) on five trees in two secondary cloud forest fragments in southern Mexico. Similarity between colonizer and established communities was compared in each fragment using a further five trees with no stripping. All seedlings were recorded yearly. Non-vascular epiphyte cover was estimated in each plot. The recolonization rate was very high; after 5 y, epiphyte density of the colonizer community (27.4 ± 6.8 individuals per segment) reached similar values to those of the established community (26.7 ± 3.3) in nearby trees. While similarity (composition and abundance) between the colonizer community and established community was high (81%), diversity accumulation curves indicated that the colonizer community presents a lower diversity of epiphytes (5.5 equivalent species) than the established community (11.4). Colonization of xerophytic bromeliads was high, while pteridophytes and orchids presented reduced recovery. The immediately surrounding source of propagules had a strong influence on recolonization. In both the colonizer and established communities, dominance rank was bromeliads > peperomias > pteridophytes. The results show that the recovery capacity of epiphytic vegetation in secondary forest is high, if propagule sources are close by. However, at 5 y after disturbance, it is unclear whether the colonizer community would present the same species composition as the established community or if it would give rise to a different community.
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10

Smith, Alan R., E. A. C. L. E. Schelpe, and N. C. Anthony. "Pteridophyta." Taxon 36, no. 4 (November 1987): 783. http://dx.doi.org/10.2307/1221150.

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11

Du Preez, P. J., and P. C. Zietsman. "PTERIDOPHYTA." Bothalia 21, no. 1 (September 22, 1991): 65–66. http://dx.doi.org/10.4102/abc.v21i1.865.

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12

Rourke, J. P. "PTERIDOPHYTA." Bothalia 24, no. 1 (October 10, 1994): 97. http://dx.doi.org/10.4102/abc.v24i1.757.

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13

Burrows, J. E., and N. R. Crouch. "PTERIDOPHYTA." Bothalia 25, no. 2 (October 9, 1995): 236–38. http://dx.doi.org/10.4102/abc.v25i2.732.

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14

Roux, J. P. "PTERIDOPHYTA." Bothalia 30, no. 2 (September 25, 2000): 155–56. http://dx.doi.org/10.4102/abc.v30i2.553.

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15

Burrows, J. E., and S. M. Burrows. "PTERIDOPHYTA." Bothalia 31, no. 2 (September 17, 2001): 205–7. http://dx.doi.org/10.4102/abc.v31i2.525.

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16

Burrows, J. E., and S. M. Burrows. "PTERIDOPHYTA." Bothalia 32, no. 2 (September 12, 2002): 195–96. http://dx.doi.org/10.4102/abc.v32i2.487.

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17

Roux, J. P. "PTERIDOPHYTA." Bothalia 34, no. 2 (September 3, 2004): 108–9. http://dx.doi.org/10.4102/abc.v34i2.421.

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18

Roux, J. P. "PTERIDOPHYTA." Bothalia 39, no. 2 (August 12, 2009): 227–29. http://dx.doi.org/10.4102/abc.v39i2.251.

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19

Crouch, N. R., and R. R. Klopper. "PTERIDOPHYTA." Bothalia 40, no. 1 (July 22, 2010): 71–72. http://dx.doi.org/10.4102/abc.v40i1.188.

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20

Crouch, N. R., and J. E. Burrows. "Pteridophyta." Bothalia 41, no. 1 (December 13, 2011): 181–83. http://dx.doi.org/10.4102/abc.v41i1.41.

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21

Li, Xuanru, Wenxing Long, Hui Zhang, Jin Huang, Yikang Cheng, Huan Jiang, Lingcong Liao, and Zhaoyuan Tan. "Divergent Strategies of Epiphytic Pteridophytes and Angiosperms Responding to Dry and Wet Seasons in a Tropical Cloud Forest." Tropical Conservation Science 13 (January 2020): 194008292092008. http://dx.doi.org/10.1177/1940082920920084.

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Epiphyte is a unique component of forest diversity vulnerable to changing environments. Characterizing variations in functional traits of epiphytes across dry and wet seasons can enhance our understanding their strategies to environments. We measured and assessed variations of 14 leaf functional traits responding to water conditions for epiphytic pteridophytes (EP) and epiphytic angiosperms (EA) across dry and wet seasons in a tropical cloud forest. Results showed that leaf dry weight (LDW) and stomatal length (SL) of EP were significantly higher than EA, while leaf water content (LWC) of EA was significantly higher than EP. The SL, stomatal density (SD), upper epidermis thickness (UET), lower epidermis thickness (LET), palisade tissue thickness (PT), spongy tissue thickness (ST), and leaf thickness (LT) of EP and EA were significantly higher in wet season than dry season. The variance of stomatal and anatomical traits explained by season types (0.24–0.78) was higher than plant groups (0.0–0.25), while the variance of LDW and LWC explained by plant groups (0.12–0.40) was higher than season types (0.0–0.29). Principal component analysis and correlation analyses showed that SL, stomatal index, UET, ST, LET, and LT were the key traits reflecting epiphyte adaptation to dry season, as well as that LWC and leaf density were the key traits in wet season. Our results suggest that the different taxonomic groups exhibit divergent strategies responding to water differences. Great variations in leaf traits to dry seasons are predicted that vascular epiphytes, especially pteridophytes, are prone to disappear with drought events.
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Moran, Robbin C., and Maria Teresa Murillo P. "Pteridophyta: I." American Fern Journal 80, no. 1 (January 1990): 3. http://dx.doi.org/10.2307/1547299.

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Roux, J. P. "PTERIDOPHYTA-ADIANTACEAE." Bothalia 23, no. 1 (October 10, 1993): 75–76. http://dx.doi.org/10.4102/abc.v23i1.790.

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24

Burrows, J. E. "OPHIOGLOSSACEAE: PTERIDOPHYTA." Bothalia 29, no. 1 (September 30, 1999): 109–12. http://dx.doi.org/10.4102/abc.v29i1.582.

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25

Klopper, R. R., P. Lemmer, and J. Nel. "PTERIDOPHYTA: PTERIDACEAE." Bothalia 36, no. 2 (August 21, 2006): 173–74. http://dx.doi.org/10.4102/abc.v36i2.358.

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26

Klopper, R. R., J. Nel, A. W. Klopper, and G. F. Smith. "PTERIDOPHYTA: ASPLENIACEAE." Bothalia 38, no. 2 (August 14, 2008): 144. http://dx.doi.org/10.4102/abc.v38i2.281.

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Crouch, N. R., R. R. Klopper, and H. F. Glen. "PTERIDOPHYTA: POLYPODIACEAE." Bothalia 40, no. 1 (July 22, 2010): 101–2. http://dx.doi.org/10.4102/abc.v40i1.199.

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Crouch, N. R. "Pteridophyta–Thelypteridaceae." Bothalia 41, no. 1 (December 13, 2011): 193–96. http://dx.doi.org/10.4102/abc.v41i1.47.

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Crouch, N. R., and J. Wesley-Smith. "Pteridophyta–Marsileaceae." Bothalia 41, no. 1 (December 13, 2011): 201–4. http://dx.doi.org/10.4102/abc.v41i1.50.

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Klopper, R. R., and A. E. Van Wyk. "Pteridophyta–Sinopteridaceae." Bothalia 41, no. 1 (December 13, 2011): 204–7. http://dx.doi.org/10.4102/abc.v41i1.51.

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31

Timberlake, Jonathan, Petra Ballings, João de Deus Vidal Jr., Bart Wursten, Mark Hyde, Anthony Mapaura, Susan Childes, Meg Coates Palgrave, and Vincent Ralph Clark. "Mountains of the Mist: A first plant checklist for the Bvumba Mountains, Manica Highlands (Zimbabwe-Mozambique)." PhytoKeys 145 (April 10, 2020): 93–129. http://dx.doi.org/10.3897/phytokeys.145.49257.

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The first comprehensive plant checklist for the Bvumba massif, situated in the Manica Highlands along the Zimbabwe-Mozambique border, is presented. Although covering only 276 km2, the flora is rich with 1250 taxa (1127 native taxa and 123 naturalised introductions). There is a high proportion of Orchidaceae and Pteridophyta, with both groups showing a higher richness than for adjacent montane areas, which may be due to the massif’s relatively high moisture levels as a result of frequent cloud cover. However, in contrast to other mesic montane regions in southern Africa, there are relatively few near-endemic or range-restricted taxa: there is only one local endemic, Aeranthes africana, an epiphytic forest orchid. This is likely to be an effect of the massif having limited natural grassland compared to forest, the former being the most endemic-rich habitat in southern African mountains outside of the Fynbos Biome. Six other near-endemic taxa with limited distribution in this portion of the Manica Highlands are highlighted. The high number of invasive species is probably a result of diverse human activities in the area. The main species of concern are Acacia melanoxylon, a tree that is invading grassland and previously cultivated land, the forest herb Hedychium gardnerianum which in places is transforming forest understorey with an adverse effect on some forest birds, and the woody herb Vernonanthura polyanthes which invades cleared forest areas after fire. Future botanical work in the massif should focus on a more detailed exploration of the poorly known Serra Vumba on the Mozambican side and on the drier western slopes. This will allow for a more detailed analysis of patterns of endemism across the Manica Highlands.
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Moran, Robbin C., Rolla M. Tryon, and Robert G. Stolze. "Pteridophyta of Peru." American Fern Journal 80, no. 2 (April 1990): 70. http://dx.doi.org/10.2307/1547320.

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Paterne, Mingou, and Gueye Mathieu. "La Flore Ptéridologique de Quelques Endroits Humides de la Région de Kédougou (Sénégal)." European Scientific Journal, ESJ 13, no. 12 (April 30, 2017): 127. http://dx.doi.org/10.19044/esj.2017.v13n12p127.

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The study of the Pteridophyte flora of some wetlands in the Kedougou region of the Senegal Republic is the subject of this study. This analysis is based on the herbarium material of the pteridological flora harvested in this region and preserved in the herbaria of various institutions of IFAN, Dakar and Paris (P) also on the bibliographic data. This leads to a field mission to re-evaluate pteridophyte flora in this region. The results obtained show that the diversity of pteridophyte in the region of Kedougou is 11 species except for the very young species whose identification could not be made. These species grouped into 7 genera belong to 5 families of which the best represented are the Pteridaceae with 4 species. All the harvested and identified species were encountered in the Herbarium visited. Thus, in order to facilitate access to their identification, it is necessary to propose the tool which means that the document conforms to the identification key on the paper and the vegetative characters have been favored. Most of the pteridophyte were harvested at the Dindefelo cascade with an abundance of the species Adiantum philippense L. which is a species with large distribution because it is found in almost all the prospected places. All of these species are restricted to wetlands and shaded areas with occupation of all habitats (terrestrial, aquatic, saxicolous and epiphytic).
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Moran, Robbin C., Alice F. Tryon, and Bernard Lugardon. "Spores of the Pteridophyta." American Fern Journal 81, no. 3 (July 1991): 108. http://dx.doi.org/10.2307/1547583.

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Dittrich, Vinícius Antonio de Oliveira, Jorge Luiz Waechter, and Alexandre Salino. "Species richness of pteridophytes in a montane Atlantic rain forest plot of Southern Brazil." Acta Botanica Brasilica 19, no. 3 (September 2005): 519–25. http://dx.doi.org/10.1590/s0102-33062005000300013.

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A floristic survey of pteridophytes (ferns and fern allies) was carried out in a 1ha plot in the Pico do Marumbi State Park, Morretes, State of Paraná, Southern Brazil. The study area is covered with a closed ombrophilous forest (Brazilian Atlantic Forest) and lies approximately 630 m in elevation. All species and life-forms of pteridophytes growing in the plot were registered and most of them were collected for taxonomic identification. A total of 81 species, belonging to 17 families were registered. The richest were Polypodiaceae (12 species), Hymenophyllaceae (11) and Lomariopsidaceae (11). The richest genera were Asplenium (ten species), Elaphoglossum (10) and Trichomanes (six). Life-form composition was: epiphytes (49 species), terrestrials (28), lithophytes (two), epiphytes/terrestrials/lithophytes (one) and epiphytes/lithophytes (one). No hemiepiphytes were found. Terrestrials included herbaceous (22 species), arborescent (four) and climbing (two). Species richness of the plot can be considered as high when compared to other neotropical sites.
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Herrero-Borgoñón, Juan J. "Azolla filiculoides Lam. en el este ibérico." Acta Botanica Malacitana 33 (December 1, 2008): 354–56. http://dx.doi.org/10.24310/abm.v33i0.7004.

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Herrero-Borgoñón, Juan J. "Polystichum lonchitis (L.) Roth (Dryopteridaceae), especie a excluir de la flora valenciana." Acta Botanica Malacitana 32 (December 1, 2007): 249–51. http://dx.doi.org/10.24310/abm.v32i0.7047.

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Polystichum lonchitis (L.) Roth (Dryopteridaceae), species to exclude of the Valencian flora Palabras clave. Pteridophyta, corología, Polystichum, Castellón, Tarragona, España.Key words. Pteridophyta, chorology, Polystichum, Castellón, Tarragona, Spain.
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Martínez-Salas, Esteban, and Clara H. Ramos. "Biodiversidad de Pteridophyta en México." Revista Mexicana de Biodiversidad 85 (January 2014): 110–13. http://dx.doi.org/10.7550/rmb.31827.

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Schäfer, H. "The grammitidaceae, pteridophyta, of macaronesia." Feddes Repertorium 112, no. 7-8 (December 2001): 509–23. http://dx.doi.org/10.1002/fedr.4921120710.

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W, Wahyuningsih, Merti Triyanti, and Sepriyaningsih Sepriyaningsih. "INVENTARISASI TUMBUHAN PAKU (Pteridophyta) DI PERKEBUNAN PT BINA SAINS CEMERLANG KABUPATEN MUSI RAWAS." Jurnal Biosilampari : Jurnal Biologi 2, no. 1 (December 28, 2019): 29–35. http://dx.doi.org/10.31540/biosilampari.v2i1.815.

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This study aims to determine the type of pteridophyta, abiotic factors and the benefits of pteridophyta in PT Bina Sains Cemerlang Plantation, Musi Rawas Regency. The research method used is descriptive qualitative. Data collection techniques in this study were carried out by surveying the research location and then determining the place by using purposive sampling technique. Data analysis techniques with the steps of the methods of observation, documentation, taking pteridophyta and identification. The results of the study of the inventory of pteridophyta at PT Bina Sains Cemerlang Musi Rawas Regency there are 9 families, 19 species, namely Asplenium nidus, Dyplazium pynocarpon, Davallia denticulate, Davallia solida, Nephrolepis biserrata, Nephrolepis cordifolia, Nephrolepis exisplis, Nephrolepis exis. Stenochlaenae palustris, Gleichenia linearis, Lycopodium cernuum,Diplazium esculentum, Drymoglossum piloselloides, Drynaria quercifolia, Phymatosorus scolopendria, Pteris biaurita, Vazaria esculentum, Drymoglossum piloselloides, Drynaria quercifolia, Phymatosorus scolopendria, Pteris biaurita, Vittaria lineculum, Drymoglossum piloselloides, Drynaria quercifolia, Phymatosorus scolopendria, Pteris biaurita, Vittaria lineate, Drymoglossum piloselloides, Drynaria quercifolia, Phymatosorus scolopendria, Pteris biaurita, Selaginella plenary. Soil moisture 8% -68% and soil pH of 7.08-8.00. Benefits of pteridophyta in PT Bina Sains Cemerlang Plantation, Musi Rawas Regency as ornamental plants and as vegetables.
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Nurlita, Nurlita, Yudi Firmanul Arifin, and Atiek Winarti. "The Practicality of Popular Scientific Book of Pteridophytes Diversity in Tabanio Beach Forest, Tanah Laut District, South Borneo." BIO-INOVED : Jurnal Biologi-Inovasi Pendidikan 3, no. 2 (June 27, 2021): 108. http://dx.doi.org/10.20527/bino.v3i2.10294.

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Learning using popular scientific books based on the local potential of an area is one solution that can be used to overcome students' lack of reading interest in learning due to limited learning resources in the Pteridophyta concept. This study aims to describe the practicality of a popular scientific book Diversity of the Tabanio Coastal Forest Pteridophyta. The method used is development research with the Tessmer formative test. The results showed that popular scientific books that have been developed obtained student responses with an average of 94.3% with very good criteria and the results of implementing the use of popular scientific books with an average of 92.6% with very good criteria. This shows that a popular scientific book Diversity of Tabanio Coastal Forest Pteridophyta is very practical to be used as an enrichment material in learning Low Plant Botany.Abstrak Pembelajaran dengan menggunakan buku ilmiah populer (BIP) berdasarkan potensi lokal yang dimiliki sebuah daerah merupakan salah satu solusi yang dapat digunakan untuk mengatasi kurangnya minat membaca mahasiswa dalam pembelajaran karena keterbatasan sumber belajar pada konsep Pteridophyta. Penelitian ini bertujuan untuk mendeskripsikan kepraktisan buku ilmiah populer Keanekaragaman Pteridophyta Hutan Pantai Tabanio. Metode yang digunakan adalah penelitian pengembangan dengan uji formatif Tessmer. Hasil penelitian menunjukkan buku ilmiah populer yang telah dikembangkan memperoleh hasil respons mahasiswa dengan rata-rata sebesar 94,3% dengan kriteria sangat setuju dan hasil keterlaksanaan penggunaan buku ilmiah populer dengan rata-rata sebesar 92,6% dengan kriteria sangat baik. Hal tersebut menunjukkan bahwa buku ilmiah populer Keanekaragaman Pteridophyta Hutan Pantai Tabanio sangat praktis digunakan sebagai bahan pengayaan dalam pembelajaran Botani Tumbuhan Rendah.
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Zijlstra, Gea, Evelyn Kustatscher, and Han van Konijnenburg-van Cittert. "(1987-1988) Proposals to conserve the name Danaeopsis Heer ex Schimp. (fossil Pteridophyta) against Marantoidea (fossil Pteridophyta) and Danaeopsis C. Presl (recent Pteridophyta) and the name Taeniopteris marantacea (fossil Pteridophyta) with a conserved." TAXON 59, no. 6 (December 2010): 1904–6. http://dx.doi.org/10.1002/tax.596034.

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Nisa, Khairun, Aulia Ajizah, and Sri Amintarti. "The Validity of Learning Media in the Form of Booklet Types of Pteridophyta (Fern) in the Riverbanks of Wisata Alam Sungai Kembang for Senior High School Grade X." BIO-INOVED : Jurnal Biologi-Inovasi Pendidikan 3, no. 2 (June 27, 2021): 92. http://dx.doi.org/10.20527/bino.v3i2.9978.

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Pteridophyta is a sub-concept on Plant (Plantae) material in the Biology subject for Grade X Senior High School. In this competency, students are expected to apply classification principles to classify plants into divisions based on observations of plant morphology and metagenesis and linking their role in the continuity of life on earth. However, most students still find it difficult to understand the concept. This Pteridophyta is due to the lack of local potential-based references that are directly related to student life, one of which is learning media. Learning media is one of the means to help teachers and students learn concepts in Biology more broadly. This encourages researchers to develop learning media in the form of a booklet on the Plantae material sub-concept of ferns (Pteridophyta). This study aims to describe the validity of the booklet developed on the types of ferns (Pteridophyta) on the riverbanks of the Wisata Alam Sungai Kembang. This research uses RandD method with 4D development model to develop learning media in the form of booklets. The results of the validity test of the developed booklet showed very valid results.AbstrakPteridophyta merupakan subkonsep pada materi Tumbuhan (Plantae) di mata pelajaran Biologi SMA Kelas X. Pada kompetensi tersebut siswa diharapkan dapat menerapkan prinsip klasifikasi untuk menggolongkan tumbuhan ke dalam divisio berdasarkan pengamatan morfologi dan metagenesis tumbuhan serta mengaitkan peranannya dalam kelangsungan kehidupan di bumi. Namun kebanyakan siswa masih sulit untuk memahami konsep Pteridophyta tersebut karena masih kurangnya referensi berbasis potensi lokal yang berkaitan langsung dengan kehidupan siswa, salah satunya yaitu media pembelajaran. Media pembelajaran merupakan salah satu sarana untuk membantu guru maupun siswa dalam mempelajari konsep pada Biologi secara lebih luas. Hal tersebut mendorong peneliti untuk mengembangkan media pembelajaran berupa booklet subkonsep tumbuhan paku (Pteridophyta). Penelitian ini bertujuan untuk mendeskripsikan validitas booklet yang dikembangkan tentang jenis tumbuhan paku (Pteridophyta) di bantaran sungai Wisata Alam Sungai Kembang. Penelitian ini menggunakan metode RandD dengan model pengembangan 4D untuk mengembangkan media pembelajaran berupa booklet. Hasil uji validitas terhadap booklet yang dikembangkan menunjukkan hasil sangat valid.
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Schmid, Rudolf, H. J. Conert, U. Hamann, W. Schultze-Motel, G. Wagenitz, K. U. Kramer, J. Dostal, T. Reichstein, C. R. Fraser-Jenkins, and Gustav Hegi. "Gustav Hegi's Illustrierte Flora von Mitteleuropa, Bd. 1, Pteridophyta, Spermatophyta, 3. Aufl., Tl. 1, Pteridophyta." Taxon 36, no. 4 (November 1987): 777. http://dx.doi.org/10.2307/1221140.

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Meave, Jorge A., Armando Rincón-Gutiérrez, Guillermo Ibarra-Manríquez, Claudia Gallardo-Hernández, and Marco Antonio Romero-Romero. "Checklist of the vascular flora of a portion of the hyper-humid region of La Chinantla, Northern Oaxaca Range, Mexico." Botanical Sciences 95, no. 4 (December 19, 2017): 722. http://dx.doi.org/10.17129/botsci.1812.

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<p><strong>Background: </strong>La Chinantla, a topographically and geomorphologically complex region, and probably the most humid in the country, hosts a diverse but largely unknown biota, particularly at higher elevations.</p><p><strong>Questions:</strong> How many plant species are present in La Chinantla? How are these species distributed along the elevational gradient encompassed in the region?</p><p><strong>Studied species: </strong>Lycopodiophyta, Pteridophyta, Gimnospermopsida, Magnoliidae, Eudicots,</p><p>Monocots.</p><p><strong>Study sites and years of study:</strong> We studied the flora of the La Chinantla hyper-humid region, Northern Oaxaca Range, southern Mexico, from 1993 to 2017.</p><p><strong>Methods:</strong> We collected 2,654 specimens in 73 main localities distributed across an elevational range from 250 to 3,020 m (but concentrated above 800 m). Numerous experts in plant taxonomy examined the specimens and provided or confirmed identifications.</p><p><strong>Results:</strong> The checklist of the vascular plants includes 1,021 species, 471 genera and 162 families of vascular plants. The specimens/species ratio (2.6) reflected a satisfactory collecting effort. The most diverse families were Asteraceae, Rubiaceae, and Orchidaceae, whereas the most speciose genera were <em>Peperomia</em>, <em>Miconia</em> and <em>Piper</em>. Most listed species are herbs (47.3 % of the total) and trees (35.2 %), whereas the terrestrial (85.4 %) and epiphytic (15.9 %) growth habits were the most frequent ones (some species presented more than one growth form or growth habit category).</p><strong>Conclusions:</strong>Based on the magnitude of the current checklist, we estimate that the actual number of species in this region must be around 1,650. The recorded richness of vascular plant species of La Chinantla confirms the large diversity and uniqueness of its flora and calls for efficient conservations efforts to ensure its maintenance in the future.<p> </p>
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Upadhaya, Harilal, and Narayandatta Bastakoti. "Species Diversity of Pteridophytic Flora in Bhimkalipatan, Pokhara, Nepal." Prithvi Journal of Research and Innovation 1 (December 15, 2019): 58–66. http://dx.doi.org/10.3126/pjri.v1i0.29890.

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The study of Pteridophytic flora of Bhimkalipatan, Pokhara was conducted from May 2018 to October 2018. The Pteridophytic plants were collected and then dried for herbarium specimen preparation. The prepared Herbarium voucher specimens were identified based on standard literatures and finally verified from KATH, Kathmandu. A total of 27 species under 19 genera belonging to 11 families were recorded. The family Polypodiaceae was the largest family with eight species under five genera. The family Pteridaceae stood second with six species under three genera. The family Dryopteridaceae was third largest family represented by three species under three genera. In the same way, the families Lygodiaceae and Thelypteridaceae were represented by two species each under two genera respectively. The remaining six families i.e. Davalliaceae, Equisetaceae, Lycopodiaceae, Nephrolepidaceae, Selaginellaceae and Woodsiaceae were represented by one species each. The largest genera were Pteris and Pyrossia representing three species each followed by Adiantum, Drynaria, Lygodium and Thelypteris with two species each respectively and the remaining 13 genera are monotypic genera. Habitat wise, the collected species were terrestrial represented by nine species followed by seven epiphytes, two climbers and one lithophyte. Likewise, three species were found as terrestrial, epiphytes and lithophytes; three species as epiphytes and lithophytes and two species as terrestrial and lithophytes.
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Nabila, Fitriya, Dewi Sulistyowati, Indarti Isolina, Rahmaa Yani, Diana Vivanti Sigit, and Mieke Miarsyah. "Keanekaragaman jenis-jenis epifit pteridophyta dan epifit spermatophyta di kawasan Kebun Raya Bogor." Proceeding of Biology Education 4, no. 1 (January 31, 2021): 36–50. http://dx.doi.org/10.21009/pbe.4-1.4.

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Kenakaragaman hayati yang sangat tinggi banyak ditemukan di negara tropis salah satunya meliputi negara Indonesia. Indonesia berada pada garis khatulistiwa dengan faktor-faktor lingkungan yang mendukung kehidupan beragam tumbuhan. Adapun jenis tumbuhan yang sering dijumpai di Indonesia merupakan epifit. Kebun Raya Bogor sebagai daerah konservasi mempunyai beranekaragam koleksi jenis-jenis epifit diantaranya epifit jenis pteridophyta dan spermatophyta. Kenekaragaman epifit Pteridophyta dan epifit Sprematophyta di Kebun Raya Bogor sangat menarik untuk diteliti dan memberi informasi data keanekragaman epifit. Penelitian ini bertujuan memberikan informasi keanekaragaman data hayati epifit pteridophyta serta spermatophyta di Kebun Raya Bogor. Penelitian dilakukan di Lokasi Koleksi Paku-pakuan (Fern Collection) Kebun Raya Bogor. Metode penelitian yag digunakan ialah descriptive method lalu pengambilan sampel dengan teknik purposive dengan menggunakan plot berukuran 10x10 meter dengam total luas area 640 meter. Data yang diamati dalam setiap plot adalah nama jenis epifit, jumlah individu (densitas) dan jumlah kemunculan (frekuensi). Indeks Nilai Penting (INP) spesies yang tergolong tinggi yaitu Asplenium nidus dengan nilai INP sebesar 78,93% dan INP terendah terdapat pada spesies Drynaria sparsisora, Pyrrosia lanceolata, dan Trichomanes sp. sebesar 2,32%. Indeks Keanekaragaman Shannon-Wiener (H’) keseluruhan diperoleh hasil sebesar 1,20 dengan rincian indeks keanekaragaman epifit pteridophyta sebesar 1,00 dan epifit spermatophyte 0,65 maka dapat disimpulkan bahwa indeks keanekaragaman jenis epifit Pteridophyta dan epifit Spermatophyta di Kebun Raya Bogor dikategorikan sedang. Berdasarkan hasil tersebut maka perlu dilakukan pelestarian tumbuhan epifit beserta inangnya. Penelitian lebih lanjut perlu juga dilakukan dengan menggunakan sampling wilayah yang lebih luas.
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Rakotondrainibe, France. "Le genreTriplophyllumHolttum (Pteridophyta, Tectariaceae) à Madagascar." Adansonia 31, no. 2 (December 2009): 235–48. http://dx.doi.org/10.5252/a2009n2a1.

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Agrawal, Teena, Priyanka Danai, and Monika Yadav. "General Aspects of Pteridophyta – A Review." International Journal of Current Research and Academic Review 5, no. 3 (March 20, 2017): 80–85. http://dx.doi.org/10.20546/ijcrar.2017.503.012.

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Sermolli, Rodolfo E. G. Pichi. "REPORT OF THE COMMITTEE FOR PTERIDOPHYTA." TAXON 35, no. 4 (November 1986): 685–86. http://dx.doi.org/10.2307/1221612.

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