Articles citing this paper
Seasonal dynamics of production, and nutrient accumulation and cycling by Phragmites asutralis (Cav.) Trin. ex Stuedel in a nutrient-enriched swamp in Inland Australia. II. Individual Shoots
P.J. Hocking
40(5) pp.445 - 464
35 articles found in Crossref database.
Mathematical Modeling as a Tool in Aquatic Ecosystem Management
Karunaratne Shiromi, Asaeda Takashi
Journal of Environmental Engineering. 2002 128(4). p.352
Comparison between biomass and C, N, P, S contents of vigorous and die-back reed stands of Lake Fertő/Neusiedler See
Dinka Maria,
Ágoston-Szabó Edit, Szeglet Peter
Biologia. 2010 65(2). p.237
EVALUATION OF MATERIALS BUDGET BY AN APPLICATION OF GROWTH AND DECOMPOSITION MODEL OF Phragmites australis
NAM Le Hung,
ASAEDA Takashi,
TANAKA Norio,
YUTANI Kentaro, TANIMOTO Katsutoshi
Doboku Gakkai Ronbunshu. 2002 2002(713). p.9
Nutrient Removal Through Autumn Harvest ofPhragmites australisandThypha latifoliaShoots in Relation to Nutrient Loading in a Wetland System Used for Polishing Sewage Treatment Plant Effluent
TOET SYLVIA,
BOUWMAN MEIKE,
CEVAAL ANNECHIEN, VERHOEVEN JOS T.A.
Journal of Environmental Science and Health, Part A. 2005 40(6-7). p.1133
Accumulation of heavy metals in aboveground biomass of Phragmites australis in horizontal flow constructed wetlands for wastewater treatment: A review
Vymazal Jan, Březinová Tereza
Chemical Engineering Journal. 2016 290 p.232
Dynamic modeling of the growth of Phragmites australis: model description
Asaeda Takashi, Karunaratne Shiromi
Aquatic Botany. 2000 67(4). p.301
Changes in Nutrient and Fibre Content of DecomposingPhragmites australisLitter
Dinka Mária,
Ágoston‐Szabó Edit, Tóth István
International Review of Hydrobiology. 2004 89(5-6). p.519
Estimating nitrogen budgets of Typha angustifolia by considering the regrowth shoot productivity and nitrogen content after harvesting aerial organs in different growing seasons
Das Shamal Chandra, Tanaka Norio
Landscape and Ecological Engineering. 2007 3(2). p.99
EFFECT OF WATER DEPTH ON THE GROWTH DYNAMICS OF Phragmites australis
TANAKA Norio,
ASAEDA Takashi,
TANIMOTO Katsutoshi, KARUNARATNE Shiromi
Doboku Gakkai Ronbunshu. 2001 2001(677). p.141
Nitrogen standing stock in Phragmites australis growing in constructed wetlands—Do we evaluate it correctly?
Březinová Tereza, Vymazal Jan
Ecological Engineering. 2015 74 p.286
Simulation and Optimization of a Constructed Wetland for Biomass Production and Nitrate Removal
Zygas Aras,
Eheart J. Wayland, Cai Ximing
Journal of Water Resources Planning and Management. 2014 140(11).
Verification of a mathematical growth model ofPhragmites australis using field data from two scottish lochs
Karunaratne Shiromi, Asaeda Takashi
Folia Geobotanica. 2000 35(4). p.419
GROWTH DYNAMICS OF Phragmites australis CONSIDERING THE VARIATION OF AIR TEMPERATURE AND RADIANT FLUX
TANAKA Norio,
ASAEDA Takashi, KARUNARATNE Shiromi
Doboku Gakkai Ronbunshu. 2000 2000(663). p.119
Phragmites australis and Typha orientalis in removal of pollutant in Taihu Lake, China
TIAN Ziqiang,
ZHENG Binghui,
LIU Meizhen, ZHANG Zhenyu
Journal of Environmental Sciences. 2009 21(4). p.440
Seasonal dynamics of resource translocation between the aboveground organs and age-specific rhizome segments of Phragmites australis
Asaeda Takashi,
Manatunge Jagath,
Roberts Jane, Hai Dinh Ngoc
Environmental and Experimental Botany. 2006 57(1-2). p.9
Effects of the introduction of pre-treated wastewater in a shallow lake reed stand
Dinka Mária,
Kiss Anita,
Magyar Norbert, Ágoston-Szabó Edit
Open Geosciences. 2016 8(1). p.62
A Field Experiment to Assess the Transplant Success of Salt Marsh Plants into Tidal Wetlands
Thomsen Dana,
Marsden Islay D., Sparrow Ashley D.
Wetlands Ecology and Management. 2005 13(5). p.489
Tolerance of riverine plants to flooding and exposure indicated by water regime
Blanch Stuart J.,
Ganf George G., Walker Keith F.
Regulated Rivers: Research & Management. 1999 15(1-3). p.43
Addressing pollutant load reduction goals for impaired waterbodies through biomass harvest of Gulf Coast type Phragmites australis (common reed)
Boyd M. C.,
Brown M. T., Brandt-Williams Sherry
Wetlands Ecology and Management. 2015 23(3). p.519
Constructed Wetlands for Water Quality Improvement (2020)
The Bioaccumulation Performance of Reeds and Cattails in a Constructed Treatment Wetland for Removal of Heavy Metals in Landfill Leachate Treatment (Etueffont, France)
Grisey Elise,
Laffray Xavier,
Contoz Océane,
Cavalli Eric,
Mudry Jacque, Aleya Lotfi
Water, Air, & Soil Pollution. 2012 223(4). p.1723
FIELD OBSERVATION OF PHRAGMITES AUSTRALIS (CAV.) TRIM. EX STEUDEL ALONG THE DOWN STREAM OF ARA RIVER
YUTANI Kentaro,
SAKAI Kanae,
NISHIO Mieko,
YOSHII Yoko,
ASAEDA Takashi,
YAMAMOTO Keiichiro, FUJINO Takeshi
Doboku Gakkai Ronbunshu. 2002 2002(712). p.151
Removal of alkali metals and their sequestration in plants in constructed wetlands treating municipal sewage
Vymazal Jan, Šveha Jaroslav
Hydrobiologia. 2012 692(1). p.131
Growth performance of Phragmites australis in Japan: influence of geographic gradient
Karunaratne Shiromi,
Asaeda Takashi, Yutani Kentaro
Environmental and Experimental Botany. 2003 50(1). p.51
Seasonal potential of Phragmites australis in nutrient removal to eliminate the eutrophication in Lake Burullus, Egypt
Eid Ebrahem M.,
Shaltout Kamal H.,
Al-Sodany Yassin M.,
Haroun Soliman A.,
Galal Tarek M.,
Ayed Hamdi,
Khedher Khaled M., Jensen Kai
Journal of Freshwater Ecology. 2020 35(1). p.135
Reeds as indicators of nutrient enrichment in a small temporarily open/ closed South African estuary
Human LRD, Adams JB
African Journal of Aquatic Science. 2011 36(2). p.167
RHIZOME EXPANSION MECHANISM OF Typha angustifolia IN RIVER
TANAKA Norio,
TAKEMURA Takeshi,
ASAEDA Takashi,
HASEGAWA Atsushi, TANIMOTO Katsutoshi
Doboku Gakkai Ronbunshu. 2002 2002(698). p.81
Effects of abiotic conditions on Phragmites australis along geographic gradients in Lake Burullus, Egypt
Eid Ebrahem M.,
Shaltout Kamal H.,
Al-Sodany Yassin M., Jensen Kai
Aquatic Botany. 2010 92(2). p.86
Trace elements in Phragmites australis growing in constructed wetlands for treatment of municipal wastewater
Vymazal Jan,
Kröpfelová Lenka,
Švehla Jaroslav,
Chrastný Vladislav, Štíchová Jana
Ecological Engineering. 2009 35(2). p.303
Changes inPhragmites australis in south-eastern Australia: A habitat assessment
Roberts Jane
Folia Geobotanica. 2000 35(4). p.353
A comparison of the functional traits of Phragmites australis in Lake Burullus (a Ramsar site in Egypt): Young vs. old populations over the nutrient availability gradient
Eid Ebrahem M.,
Shaltout Kamal H.,
Al-Sodany Yassin M.,
Haroun Soliman A., Jensen Kai
Ecological Engineering. 2021 166 p.106244
Concentration is not enough to evaluate accumulation of heavy metals and nutrients in plants
Vymazal Jan
Science of The Total Environment. 2016 544 p.495
Trace metals in Phragmites australis and Phalaris arundinacea growing in constructed and natural wetlands
Vymazal Jan,
Švehla Jaroslav,
Kröpfelová Lenka, Chrastný Vladislav
Science of The Total Environment. 2007 380(1-3). p.154
Modeling Growth, Carbon Allocation and Nutrient Budgets of Phragmites australis in Lake Burullus, Egypt
Eid Ebrahem M.,
Shaltout Kamal H.,
Al-Sodany Yassin M.,
Soetaert Karline, Jensen Kai
Wetlands. 2010 30(2). p.240
Seasonal fluctuations in live and dead biomass of Phragmites australis as described by a growth and decomposition model: implications of duration of aerobic conditions for litter mineralization and sedimentation
Asaeda Takashi,
Nam Le Hung,
Hietz Peter,
Tanaka Norio, Karunaratne Shiromi
Aquatic Botany. 2002 73(3). p.223
