Phosphorus As A Limiting Factor For Eichhornia crassipes Growth In The Upper Paraná River Floodplain

Phosphorus As A Limiting Factor For Eichhornia crassipes Growth In The Upper Paraná River Floodplain

The series of reservoirs located in the upper Paraná River and its tributaries retain a large amount of phosphorus (sedimentation), impoverishing downstream waters. Although these nutrients are limiting for primary production, their role on the growth of native aquatic plants is still unknown. The f...

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Bibliographic Details
Published in:Wetlands (Wilmington, N.C.) Vol. 28; no. 4; pp. 905 - 913
Main Authors: Kobayashi, Josilaine Taeco, Thomaz, Sidinei Magela, Pelicice, Fernando Mayer
Format: Journal Article
Language:English
Published: 1313 Dolley Madison Boulevard, Suite 402, McLean, Virginia, USA 22101 The Society of Wetland Scientists 01-12-2008
Springer Netherlands
Springer Nature B.V
Subjects:
Aquatic habitats
Aquatic plants
Biomass
Biomedical and Life Sciences
Brazil
Coastal Sciences
Coverage
Downstream
Ecology
Eichhornia crassipes
Environmental Management
experiment
Floating plants
Flood plains
Floodplains
Freshwater
Freshwater & Marine Ecology
Habitat
Hydrogeology
Introduced plants
lagoon
Lagoons
Landscape Ecology
Life Sciences
Limiting factors
Macrophytes
mesocosm
Mesocosms
Nitrogen
nutrient limitation
Nutrients
oligotrophy
Phosphorus
Phosphorus removal
plant growth
Plant tissues
Population studies
Primary production
Regular Submissions
reservoir
Reservoirs
Rivers
Sedimentation
water hyacinth
Water hyacinths
Wetlands
Brazil
Brazil, Upper Parana R
experiment
oligotrophy
water hyacinth
mesocosm
Brazil
nutrient limitation
reservoir
lagoon
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Summary:The series of reservoirs located in the upper Paraná River and its tributaries retain a large amount of phosphorus (sedimentation), impoverishing downstream waters. Although these nutrients are limiting for primary production, their role on the growth of native aquatic plants is still unknown. The free-floating macrophyte, Eichhornia crassipes, is among the most successful colonizers and fastest-growing macrophytes in the Neotropics. However, in the upper Paraná River floodplain, this plant rarely develops extensive coverage and it is even absent from some environments. We hypothesize that phosphorus concentration is limiting the growth of E. crassipes in certain aquatic habitats of this floodplain, and to test this hypothesis we designed a field mesocosm experiment using nutrient amendments. Twelve closed mesocosms (1,500 L) plus three open units (with ambient lagoon water) were set up in the Garças lagoon, under five nutrient treatments (three replicates each): L (“lagoon”, no addition), C (control, no addition), +N (nitrogen addition), +P (phosphorus addition), and +NP (nitrogen and phosphorus addition). After nutrient amendments, introduced plants were weighed weekly for fresh biomass over a three-week period. Plants in the +P and +NP treatments had the most rapid increase in biomass (rmANOVA, F12,30  =  7.54, p < 0.05) and the greatest development of sprouts (F12,30  =  3.25, p < 0.05). In addition, phosphorus content in plant tissues was highest in +P and +NP treatments, while nitrogen content was similar in L, +N, and +NP treatments. Our results suggest that the growth of water hyacinth in the upper Paraná River floodplain is limited by phosphorus, not nitrogen. Phosphorus removal in upstream reservoirs may limit E. crassipes populations downstream, although more study is required to establish this link.
Bibliography:http://dx.doi.org/10.1672/07-89.1
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ISSN:0277-5212
1943-6246
DOI:10.1672/07-89.1