Results 171 to 180 of about 8,369 (214)
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2018
Typha angustifolia L. Artbeschreibung: 1-2,5 m hoch. Blätter der blütentragenden Stängel nur 0,3-1 cm breit, meist grasgrün, männlicher und weiblicher Blütenstand je 10-35 cm lang, dazwischen eine 2-8 cm lange Lücke. Sonst wie T. latifolia (Nr. 2597). Blütezeit: 7-8 Standort und Verbreitung in der Schweiz: Stehende, schlammige Gewässer bis ca.
Konrad Lauber +2 more
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Typha angustifolia L. Artbeschreibung: 1-2,5 m hoch. Blätter der blütentragenden Stängel nur 0,3-1 cm breit, meist grasgrün, männlicher und weiblicher Blütenstand je 10-35 cm lang, dazwischen eine 2-8 cm lange Lücke. Sonst wie T. latifolia (Nr. 2597). Blütezeit: 7-8 Standort und Verbreitung in der Schweiz: Stehende, schlammige Gewässer bis ca.
Konrad Lauber +2 more
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Limnology, 2006
The growth strategy of an emergent plant, Typha orientalis Presl, was examined in experimental ponds in comparison with two other Typha species distributed in Japan, Typha latifolia L. and Typha angustifolia L. T. orientalis showed the greatest ability of vegetative reproduction at the expense of growth in height. T.
Tomomi Matsui Inoue, Takayoshi Tsuchiya
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The growth strategy of an emergent plant, Typha orientalis Presl, was examined in experimental ponds in comparison with two other Typha species distributed in Japan, Typha latifolia L. and Typha angustifolia L. T. orientalis showed the greatest ability of vegetative reproduction at the expense of growth in height. T.
Tomomi Matsui Inoue, Takayoshi Tsuchiya
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Mechanisms of cadmium detoxification in cattail (Typha angustifolia L.)
Aquatic Botany, 2011Abstract Cadmium (Cd) is a widespread heavy metal pollutant and environmental and human health hazard, which may be partially resolved using green and cost-effective phytoremediation techniques. However, the efficiency of phytoremediation is often limited by the small biomass of Cd-hyperaccumulator plants.
Weifeng Xu +4 more
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Canadian Journal of Plant Science, 1986
Typha latifolia L., common cattail, Typha angustifolia L., narrow-leaved cattail, and Typha xglauca (T. angustifolia × T. latifolia), hybrid cattail, are herbaceous perennials found in wet or saturated soils and aquatic sediments in marshes, wet meadows, lakeshores, pond margins, seacoast estuaries, roadside ditches, bogs, and fens in Canada and the U.
JAMES B. GRACE, JANET S. HARRISON
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Typha latifolia L., common cattail, Typha angustifolia L., narrow-leaved cattail, and Typha xglauca (T. angustifolia × T. latifolia), hybrid cattail, are herbaceous perennials found in wet or saturated soils and aquatic sediments in marshes, wet meadows, lakeshores, pond margins, seacoast estuaries, roadside ditches, bogs, and fens in Canada and the U.
JAMES B. GRACE, JANET S. HARRISON
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Aquatic Botany, 1994
Abstract The gas flow pathways within Typha latifolia L. and Typha angustifolia L. were evaluated by studying the internal pressurization and convective flow through individual leaves and the internal resistances to gas flow within the plants. Air enters the middle-aged leaves against a small pressure gradient by humidity-induced pressurization ...
Tornbjerg, T., Bendix, M., Brix, Hans
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Abstract The gas flow pathways within Typha latifolia L. and Typha angustifolia L. were evaluated by studying the internal pressurization and convective flow through individual leaves and the internal resistances to gas flow within the plants. Air enters the middle-aged leaves against a small pressure gradient by humidity-induced pressurization ...
Tornbjerg, T., Bendix, M., Brix, Hans
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Benthic macroinvertebrate response to sedimentation in a Typha angustifolia L. wetland
Wetlands Ecology and Management, 2001Fiberglass mesh enclosures (1 × 1 m2) in a Typha angustifoliaL. marsh were employed to examine the effects of clay additions on theresident macroinvertebrate communities. Total invertebrate density, insectdensity, and number of insect families decreased significantly by 33%,37%, and 17%, respectively, in enclosures receiving sediment. Morespecifically,
Dianne C. Martin, Robert K. Neely
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Aquatic Botany, 1994
The internal gas transport in the shoots of the cattails, Typha latifolia L. and Typha angustifolia L., occurs principally via pressurized convective throughflow of gases. Static pressure differentials of up to 350 Pa relative to ambient for T. latifolia and 570 Pa for T.
Bendix, M., Tornbjerg, T., Brix, Hans
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The internal gas transport in the shoots of the cattails, Typha latifolia L. and Typha angustifolia L., occurs principally via pressurized convective throughflow of gases. Static pressure differentials of up to 350 Pa relative to ambient for T. latifolia and 570 Pa for T.
Bendix, M., Tornbjerg, T., Brix, Hans
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Plant Species Biology, 2009
Abstract The depth distribution of the aquatic macrophyte Typha orientalis Presl was examined in comparison with two other Typha species: Typha angustifolia L.
TOMOMI INOUE, TAKAYOSHI TSUCHIYA
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Abstract The depth distribution of the aquatic macrophyte Typha orientalis Presl was examined in comparison with two other Typha species: Typha angustifolia L.
TOMOMI INOUE, TAKAYOSHI TSUCHIYA
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Stimulatory effect on pea of Typha Angustifolia L. extracts and their chemical composition
Journal of Plant Nutrition, 2017ABSTRACTIn this study, the influence of aqueous and organic extracts of different plant parts (flowers, leaves, and stems) of Typha angustifolia on the germination and early seedling growth of field pea (Pisum sativum L.) was evaluated. Chemical composition of extracts of different plant parts of Typha was also determined.
Ghezal, Nadia +7 more
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Development of the endodermis and hypodermis of Typha glauca Godr. and Typha angustifolia L. roots
Canadian Journal of Botany, 1999The development of the endodermis and hypodermis in adventitious roots of Typha angustifolia L. and Typha glauca Godr. was followed from the apical meristem to full maturity. The endodermis was typical, developing a thin Casparian band near the root tip, followed by suberin lamellae and asymmetric, secondary, lignified walls (C-type at maturity ...
James L Seago, Jr. +3 more
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