eutrophication history of a tropical water supply reservoir in Brazil
Guarapiranga Reservoir is the second most important public water supply in São Paulo, Brazil and has been eutrophic for several decades. We inferred the major ecological shifts for the period 1919–2010 related to multiple stressors (forest flooding, hydrological change, use of algicide and eutrophic...
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| Veröffentlicht in: | Journal of paleolimnology 2014, Vol.51 (1), p.29-43 |
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| creator | Fontana, Luciane Albuquerque, Ana Luiza S Brenner, Mark Bonotto, Daniel M Sabaris, Tatiani P. P Pires, Maria A. F Cotrim, Marycel E. B Bicudo, Denise C |
| description | Guarapiranga Reservoir is the second most important public water supply in São Paulo, Brazil and has been eutrophic for several decades. We inferred the major ecological shifts for the period 1919–2010 related to multiple stressors (forest flooding, hydrological change, use of algicide and eutrophication), using geochemistry (TOC, TN, TP, C/N, δ¹⁵N, δ¹³C) and diatom assemblages in a short (75-cm) sediment core. Thirty-two diatom species were abundant in the core and stratigraphically constrained incremental sum of squares analysis enabled identification of three diatom zones and four subzones, i.e. depths at which marked changes in species composition occurred. Early diatom assemblages were dominated by benthic, oligotrophic taxa, mainly Eunotia, influenced by flooded vegetation after dam construction. A shift to dominance by a planktonic species (Eunotia tukanorum) occurred ca. 1932, during the period of initial physical disturbance and early use of the water body as a public water supply. Diatoms and geochemical variables show that the reservoir was oligotrophic from ~1919 to 1947. Eutrophication began ~1975 and by the early 1980s the reservoir had become eutrophic, in response to an explosive increase in human population in the watershed. Severe cultural eutrophication has persisted since ~1990. Higher concentrations of copper in the sediments, beginning in 1991, reflect the increased use of copper sulfate to control cyanobacteria blooms and provide a chronological marker. Higher δ¹⁵N values in recent sediments indicate greater sewage inputs and low C/N values reflect the predominant contribution of algae to sediment organic matter. Eutrophic taxa Cyclotella meneghiniana and Nitzschia sp. dominate recent diatom assemblages, along with Aulacoseira granulata, a species that is tolerant of copper sulfate. Diatom assemblages reflect multiple stressors, however, geochemical information provides a better understanding of the early phase of the reservoir. Paleolimnologically documented trophic state changes in this important drinking water supply are largely attributable to increased urbanization of the drainage basin and inputs of sewage. Management efforts should focus on mitigating this nutrient source. |
| doi_str_mv | 10.1007/s10933-013-9753-3 |
| format | Article |
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P ; Pires, Maria A. F ; Cotrim, Marycel E. B ; Bicudo, Denise C</creator><creatorcontrib>Fontana, Luciane ; Albuquerque, Ana Luiza S ; Brenner, Mark ; Bonotto, Daniel M ; Sabaris, Tatiani P. P ; Pires, Maria A. F ; Cotrim, Marycel E. B ; Bicudo, Denise C</creatorcontrib><description>Guarapiranga Reservoir is the second most important public water supply in São Paulo, Brazil and has been eutrophic for several decades. We inferred the major ecological shifts for the period 1919–2010 related to multiple stressors (forest flooding, hydrological change, use of algicide and eutrophication), using geochemistry (TOC, TN, TP, C/N, δ¹⁵N, δ¹³C) and diatom assemblages in a short (75-cm) sediment core. Thirty-two diatom species were abundant in the core and stratigraphically constrained incremental sum of squares analysis enabled identification of three diatom zones and four subzones, i.e. depths at which marked changes in species composition occurred. Early diatom assemblages were dominated by benthic, oligotrophic taxa, mainly Eunotia, influenced by flooded vegetation after dam construction. A shift to dominance by a planktonic species (Eunotia tukanorum) occurred ca. 1932, during the period of initial physical disturbance and early use of the water body as a public water supply. Diatoms and geochemical variables show that the reservoir was oligotrophic from ~1919 to 1947. Eutrophication began ~1975 and by the early 1980s the reservoir had become eutrophic, in response to an explosive increase in human population in the watershed. Severe cultural eutrophication has persisted since ~1990. Higher concentrations of copper in the sediments, beginning in 1991, reflect the increased use of copper sulfate to control cyanobacteria blooms and provide a chronological marker. Higher δ¹⁵N values in recent sediments indicate greater sewage inputs and low C/N values reflect the predominant contribution of algae to sediment organic matter. Eutrophic taxa Cyclotella meneghiniana and Nitzschia sp. dominate recent diatom assemblages, along with Aulacoseira granulata, a species that is tolerant of copper sulfate. Diatom assemblages reflect multiple stressors, however, geochemical information provides a better understanding of the early phase of the reservoir. Paleolimnologically documented trophic state changes in this important drinking water supply are largely attributable to increased urbanization of the drainage basin and inputs of sewage. 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P</creatorcontrib><creatorcontrib>Pires, Maria A. F</creatorcontrib><creatorcontrib>Cotrim, Marycel E. B</creatorcontrib><creatorcontrib>Bicudo, Denise C</creatorcontrib><title>eutrophication history of a tropical water supply reservoir in Brazil</title><title>Journal of paleolimnology</title><addtitle>J Paleolimnol</addtitle><description>Guarapiranga Reservoir is the second most important public water supply in São Paulo, Brazil and has been eutrophic for several decades. We inferred the major ecological shifts for the period 1919–2010 related to multiple stressors (forest flooding, hydrological change, use of algicide and eutrophication), using geochemistry (TOC, TN, TP, C/N, δ¹⁵N, δ¹³C) and diatom assemblages in a short (75-cm) sediment core. Thirty-two diatom species were abundant in the core and stratigraphically constrained incremental sum of squares analysis enabled identification of three diatom zones and four subzones, i.e. depths at which marked changes in species composition occurred. Early diatom assemblages were dominated by benthic, oligotrophic taxa, mainly Eunotia, influenced by flooded vegetation after dam construction. A shift to dominance by a planktonic species (Eunotia tukanorum) occurred ca. 1932, during the period of initial physical disturbance and early use of the water body as a public water supply. Diatoms and geochemical variables show that the reservoir was oligotrophic from ~1919 to 1947. Eutrophication began ~1975 and by the early 1980s the reservoir had become eutrophic, in response to an explosive increase in human population in the watershed. Severe cultural eutrophication has persisted since ~1990. Higher concentrations of copper in the sediments, beginning in 1991, reflect the increased use of copper sulfate to control cyanobacteria blooms and provide a chronological marker. Higher δ¹⁵N values in recent sediments indicate greater sewage inputs and low C/N values reflect the predominant contribution of algae to sediment organic matter. Eutrophic taxa Cyclotella meneghiniana and Nitzschia sp. dominate recent diatom assemblages, along with Aulacoseira granulata, a species that is tolerant of copper sulfate. Diatom assemblages reflect multiple stressors, however, geochemical information provides a better understanding of the early phase of the reservoir. Paleolimnologically documented trophic state changes in this important drinking water supply are largely attributable to increased urbanization of the drainage basin and inputs of sewage. Management efforts should focus on mitigating this nutrient source.</description><subject>Algae</subject><subject>Algicides</subject><subject>Aulacoseira granulata</subject><subject>Bacillariophyceae</subject><subject>Climate Change</subject><subject>copper</subject><subject>Copper sulfate</subject><subject>Cyanobacteria</subject><subject>Cyclotella meneghiniana</subject><subject>Dam construction</subject><subject>Drinking water</subject><subject>Earth and Environmental Science</subject><subject>Earth Sciences</subject><subject>Eunotia</subject><subject>Eutrophication</subject><subject>forests</subject><subject>Freshwater & Marine Ecology</subject><subject>Geochemistry</subject><subject>Geology</subject><subject>human population</subject><subject>Human populations</subject><subject>hydrology</subject><subject>Land use</subject><subject>Nitzschia</subject><subject>Organic matter</subject><subject>Original Paper</subject><subject>Paleolimnology</subject><subject>Paleontology</subject><subject>Physical Geography</subject><subject>public water supply</subject><subject>Public waters</subject><subject>Reservoirs</subject><subject>Sedimentology</subject><subject>Sediments</subject><subject>Sewage</subject><subject>Species composition</subject><subject>species diversity</subject><subject>Sulfates</subject><subject>Taxa</subject><subject>Urbanization</subject><subject>Water bodies</subject><subject>Water supply</subject><subject>watersheds</subject><issn>0921-2728</issn><issn>1573-0417</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>BENPR</sourceid><recordid>eNp9kEtLxDAUhYMoOD5-gCsDbtxUc5vmtdRhfMCAC511SEsyk6HT1KRVxl9vS12IC1cX7vnO4d6D0AWQGyBE3CYgitKMAM2UYDSjB2gGTAybAsQhmhGVQ5aLXB6jk5S2hBAlBZuhhe27GNqNr0znQ4M3PnUh7nFw2OBRGYQaf5rORpz6tq33ONpk40fwEfsG30fz5eszdORMnez5zzxFq4fF2_wpW748Ps_vlpmhineZMQUomzMqnWSmpEUFJQhwVAC1jruSccd5YSpXKadKYEQZWRACXOWCAaOn6HrKbWN4723q9M6nyta1aWzok4ZCcSlByBG9-oNuQx-b4bqRIlIqSsRAwURVMaQUrdNt9DsT9xqIHovVU7F6KFaPxWo6ePLJkwa2Wdv4K_kf0-VkciZos44-6dVrTmD8rmBcKPoNn36DUg</recordid><startdate>2014</startdate><enddate>2014</enddate><creator>Fontana, Luciane</creator><creator>Albuquerque, Ana Luiza S</creator><creator>Brenner, Mark</creator><creator>Bonotto, Daniel M</creator><creator>Sabaris, Tatiani P. 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P</au><au>Pires, Maria A. F</au><au>Cotrim, Marycel E. B</au><au>Bicudo, Denise C</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>eutrophication history of a tropical water supply reservoir in Brazil</atitle><jtitle>Journal of paleolimnology</jtitle><stitle>J Paleolimnol</stitle><date>2014</date><risdate>2014</risdate><volume>51</volume><issue>1</issue><spage>29</spage><epage>43</epage><pages>29-43</pages><issn>0921-2728</issn><eissn>1573-0417</eissn><abstract>Guarapiranga Reservoir is the second most important public water supply in São Paulo, Brazil and has been eutrophic for several decades. We inferred the major ecological shifts for the period 1919–2010 related to multiple stressors (forest flooding, hydrological change, use of algicide and eutrophication), using geochemistry (TOC, TN, TP, C/N, δ¹⁵N, δ¹³C) and diatom assemblages in a short (75-cm) sediment core. Thirty-two diatom species were abundant in the core and stratigraphically constrained incremental sum of squares analysis enabled identification of three diatom zones and four subzones, i.e. depths at which marked changes in species composition occurred. Early diatom assemblages were dominated by benthic, oligotrophic taxa, mainly Eunotia, influenced by flooded vegetation after dam construction. A shift to dominance by a planktonic species (Eunotia tukanorum) occurred ca. 1932, during the period of initial physical disturbance and early use of the water body as a public water supply. Diatoms and geochemical variables show that the reservoir was oligotrophic from ~1919 to 1947. Eutrophication began ~1975 and by the early 1980s the reservoir had become eutrophic, in response to an explosive increase in human population in the watershed. Severe cultural eutrophication has persisted since ~1990. Higher concentrations of copper in the sediments, beginning in 1991, reflect the increased use of copper sulfate to control cyanobacteria blooms and provide a chronological marker. Higher δ¹⁵N values in recent sediments indicate greater sewage inputs and low C/N values reflect the predominant contribution of algae to sediment organic matter. Eutrophic taxa Cyclotella meneghiniana and Nitzschia sp. dominate recent diatom assemblages, along with Aulacoseira granulata, a species that is tolerant of copper sulfate. Diatom assemblages reflect multiple stressors, however, geochemical information provides a better understanding of the early phase of the reservoir. Paleolimnologically documented trophic state changes in this important drinking water supply are largely attributable to increased urbanization of the drainage basin and inputs of sewage. Management efforts should focus on mitigating this nutrient source.</abstract><cop>Dordrecht</cop><pub>Springer-Verlag</pub><doi>10.1007/s10933-013-9753-3</doi><tpages>15</tpages></addata></record> |
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| subjects | Algae Algicides Aulacoseira granulata Bacillariophyceae Climate Change copper Copper sulfate Cyanobacteria Cyclotella meneghiniana Dam construction Drinking water Earth and Environmental Science Earth Sciences Eunotia Eutrophication forests Freshwater & Marine Ecology Geochemistry Geology human population Human populations hydrology Land use Nitzschia Organic matter Original Paper Paleolimnology Paleontology Physical Geography public water supply Public waters Reservoirs Sedimentology Sediments Sewage Species composition species diversity Sulfates Taxa Urbanization Water bodies Water supply watersheds |
| title | eutrophication history of a tropical water supply reservoir in Brazil |
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