Projekty RCIN i OZwRCIN

Obiekt

Tytuł: Eksperymentalne badanie wpływu soli pokarmowych na produkcję naturalnych zespołów fitoplanktonowych jako metoda prognozowania tempa eutrofizacji wód

Twórca:

Woroniecka, Urszula

Data wydania/powstania:

1976

Typ zasobu:

Tekst

Inny tytuł:

Experimental studies on the effect of nutrients on production of natural phytoplankton communities as a method for forecasting water eutrophication rate ; Sole pokarmowe a produkcja fitoplanktonu

Współtwórca:

Polska Akademia Nauk. Komitet Ekologii

Wydawca:

Państwowe Wydawnictwo Naukowe

Miejsce wydania:

Warszawa

Opis:

Strony 321-337 ; 24 cm ; Bibliografia na stronach 334-336 ; Streszczenie w języku angielskim

Typ obiektu:

Czasopismo/Artykuł

Abstrakt:

Experiments with enrichment of a water habitat with nutrient elements, chiefly N, P and microelements, are now widely employed in studies on the effect of nutrient salts on phytoplankton production. Phytoplankton production is a sensitive indicator of changes in nutrients contents in a water habitat. The use of natural phytoplankton communities as test organisms in experiments on enrichment of the habitat makes it possible correctly to evaluate the productive capacities of phytoplankton communities in the water examined.The method consisting in long-term enrichment of a water habitat with elements in open polyethylene bags, with measurement of algae production repeated several times during the course of the experiment, gives results closest to the production of natural phytoplankton communities. These experiments with enrichment of a water habitat with nutrients form a quick and sensitive method of estimating the food factors limiting production in different types of waters. Changes in phytoplankton production, on the other hand, can serve as a pointer to the eutrophizing properties of different habitats in a body of water and in the streams and rivers flowing into it, and may also point to the time at which steps must be taken to prevent their excessive inflow in order to protect the water ecosystems from degradation.

Bibliografia:

Bengtsson L., Fleischer S., Lindmark G., Ripl W. 1975 — The lake Trummen restoration project. I. Water and sediment chemistry — Verh. int. Verein. Limnol. 19: 1080—1087.
Bjork S. 1972 — Ecosystem studies in connection with the restoration of lakes — Verh. int. Verein. Limnol. 18: 379—387.
Chiou C. J., Boyd C. E. 1974 — The utilization of phosphorus from muds by the phytoplankter, Scenedesmus dimorphus and the significance of these findings to the practice of pond fertilization — Hydrobiologia, Hague 45: 345—356.
Chu S. P. 1942 — The influence of the mineral composition of the medium on the growth of planktonic algae — J. Ecol. 30: 284—325.
Dickman M. 1973 — Changes in phytoplankton following nitrate and phosphate additions to large enclosures in Marion Lake, British Columbia — Schweiz. Z. Hydrol. 35: 114—120.
Edmondson W. T. 1972 — The present condition of lake Washington — Verh. int. Verein. Limnol. 18: 284—291.
Evans J. H. 1961 — Growth of lake Victoria phytoplankton in enriched cultures — Nature 189: 417.
Fish G. R. 1955 — Chemical factors limiting growth of phytoplankton in Lake Victoria — J. E. african Agric. 21: 152—158.
Glooschenko W. A., Alvis C. 1973 — Changes in species composition of phytoplankton due to enrichment by N, P and Si of water from a North Florida Lake — Hydrobiologia, Hague, 42: 285—294.
Goldman C. R. 1959 — Primary productivity and limiting factors in three lakes of the Alaska Peninsula — Ecol. Monogr. 30: 207—230.
Goldman C. R. 1960 — Molybdenum as a factor limiting primary productivity in Castle Lake, California — Science, 132: 1016—1017.
Goldman C. R. 1961 — Primary productivity and limiting factors in Brooks Lake, Alaska — Verh. int. Verein. Limnol. 14: 120—124.
Goldman C. R. 1962 — A method of studying nutrient limiting factors in situ in water columns isolated by polyethylene film — Limnol. Oceanogr. 7: 99—101.
Goldman C. R. 1964 — Primary productivity and micro-nutrient limiting factors in some North American and New Zealand lakes — Verh. int. Verein. Limnol. 15: 365—374.
Goldman C. R. 1965 — Micronutrients limiting factors and their detection in natural phytoplankton population — Mem. 1st. ital. Idrobiol. Suppl. 18: 121—135.
Goldman C. R., Armstrong R. 1969 — Primary productivity studies in Lake Tahoe, California — Verh. int. Verein. Limnol. 17: 49—71.
Goldman C. R., Wetzel R. G. 1963 — A study of primary productivity of Clear Lake, Lake County, California — Ecology 44: 283—294.
Golterman H. L. 1969 — Availability of mud phosphates for the growth of algae — Verh. int. Verein. Limnol. 17: 467—479.
Hamilton D. H. 1969 — Nutrient limitation of summer phytoplankton growth in Cayuga Lake — Limnol. Oceanogr. 14: 579—590.
Holm-Hansen O. 1969 — Environmental and nutritional requirements for algae — Proc. of the eutrophication — biostymulation Assessment Workshop, Berkeley, California 98—108.
Javornicky P., Fujita D. K., Goldman C. R. 1973 — The influence of eutrophic lake sediments on the growth of different planktonic algae — Arch. Hydrobiol. Suppl. 41 (algolog. Stud. 8): 341—362.
Kimmel B. C., Lind O. T. 1972 — Factors affecting phytoplankton production in eutrophic reservoir — Arch. Hydrobiol. 71: 124—141.
Komarkova J. 1974 — Limitation of phytoplankton growth by the lack of nutrients in two reservoirs in Czechoslovakia — Arch. Hydrobiol. Suppl. 46 (algolog. Stud. 10): 55—89.
Lindmark G. 1973 — Bioassay with Selenastrum capricornutum to asses the nutrient status of lakes and fertilizing influence of interstitial water — Algal Assays in Water Pollution Res. Nordforsk, 2 pp.
Lund J. W. G. 1950 — Studies on Asterionella formosa Hass. II. Nutrient depletion and the spring maximum — J. Ecol. .38: 15—32.
Lund J. W. G. 1972 — Preliminary observations on the use of large experimental tubes in lakes — Verh. int. Verein. Limnol. 18: 71—77.
Mac Phee C. 1961 — Bioassay of algal production in chemically altered waters— Limnol. Oceanogr. 6: 416—422.
Mentzel D. W., Hulbert E. M., Ryther J. H. 1963 — The effects of enriching Sargasso Sea water on the production and species composition of the phytoplankton — Deep-Sea Res. 10: 209—219.
Miller E. W., Maloney T. E., Greene J. C. 1974 — Algal productivity in 49 lake waters as determined by algal assays — Wat. Res. 8: 667—679.
Moss B. 1969 — Limitation of algal growth in some Central African waters — Limnol. Oceanogr. 14: 591—601.
Moss B. 1972 — Studies on Gull Lake, Michigan — Freshwat. Biol. 2: 309—320.
Nelson P. R., Edmondson W. T. 1955 — Limnological effects of fertilizing Bore Lake, Alaska — Fish. Bull. 56: 415—436.
Ostrofsky M. L., Duthie H. C. 1975 — Primary productivity, phytoplankton and limiting factors in Labrador Lakes — Int. Rev. gesamten Hydrobiol. 60: 145—158.
Potash M. 1956 — A biological test for determining the potential productivity of water — Ecology 37: 631—639.
Polisini J. M., Boyd C. F., Digdeon B. 1970 — Nutrient limiting factors in an oligotrophic South Carolina pond — Oikos, 21: 344—347.
Provasoli L. 1958 — Nutrition and ecology of protozoa and algae — Ann. Rev. Microbiol. 12: 279—308.
Rodhe W. 1948 — Environmental requirements of freshwater plankton algae — Symb. bot. Upsal. 10: 149 pp.
Saraceni C., Gerletti M. 1968 — How deep water in a large lake (Lake Maggiore, Northern Italy) may affect primary productivity — Mem. Ist. ital. Idrobiol. 23: 141—159.
Schelske C. L., Stoermer E. F. 1972 — Phosphorus, silica and eutrophication in Lake Michigan — Limnol. Oceanogr. 17 (spec. Symp. 1): 157—170.
Schindler D. W., Nighswander J. E. 1971 — Nutrient supply and primary production in Clear Lake, eastern Ontario — J. Fish. Res. Bd Canada, 27: 2009—2036.
Smayda T. J. 1964 — Enrichment experiments using the marine centric diatom Cyclotella nana (clon 13—1) as an assay organism — Occas. Publ. Narrangansett mar. Lab. 2: 25—32.
Smayda T. J. 1974 — Bioassay of the growth potential of the surface water of lower Narrangansett Bay over an annual cycle using the diatom Thalassiosira pseudonana (oceanic clon 13—1) — Limnol. Oceanogr. 19: 889—901.
Steemann Nielsen E. 1952 — The use of radioactive carbon (14C) for measuring organic production in the sea — J. Cons. int. Explor. Mer. 18: 117—140.
Takahashi M., Nask F. 1973 — The effect in nutrient enrichment on algal photosynthesis in Great Lake Columbia — Arch. Hydrobiol. 71: 166—182.
Thayer G. W. 1974 — Identity and regulation of nutrients limiting phytoplankton production in the shallow estuaries near Beaufort N. C. — Oecologia, Berlin 14: 75—92.
Thomas E. A. 1969 — Phytoplankton nutrient enrichment experiments off Baja, California and in the eastern equatorial Pacific Ocean — J. Fish. Res. Bd Canada 26: 1133—1145.
Tranter D. J., Newll B. S. 1963 — Enrichment experiments in the Indiana Ocean — Deep-Sea Res. 10: 1—9.
Verduin J. 1964 — Principles of primary productivity: Photosynthesis under completly natural conditions (Algae and man, Ed. D. F. Jackson) — Syrakuse, New York, 221—238.
Viner A. B. 1973 — Responses of a mixed phytoplankton population to nutrient enrichment of ammonia and phosphate and some associated ecological implications — Proc. R. Soc. London B, biol. Sci. 183: 351—370.
Vollenweider R. A. 1968 — The scientific basis of lake and stream eutrophication, with particular reference to P and N as eutrophication factors — Tech. Rep. OECD Paris Das (CSI) 68, 27: 1—182.
Wetzel R. G. 1965 — Nutritional aspects of algal productivity in marl lakes with particular reference to enrichment bioassay and their interpretation — Mem. Ist. ital. Idrobiol. 18: 137—157.
Wetzel R. G. 1966 — Productivity and nutrient relationships in marl lakes of northern Indiana — Verh. int. Verein. Limnol. 16: 321—332.

Czasopismo/Seria/cykl:

Wiadomości Ekologiczne

Tom:

22

Zeszyt:

4

Strona pocz.:

321

Strona końc.:

337

Szczegółowy typ zasobu:

Artykuł

Identyfikator zasobu:

oai:rcin.org.pl:153836 ; ISSN 0013-2969

Źródło:

MiIZ PAN, sygn. P.3259 ; kliknij tutaj, żeby przejść

Język:

pol

Język streszczenia:

eng

Prawa:

Licencja Creative Commons Uznanie autorstwa 3.0 Polska

Zasady wykorzystania:

Zasób chroniony prawem autorskim. [CC BY 3.0 PL] Korzystanie dozwolone zgodnie z licencją Creative Commons Uznanie autorstwa 3.0 Polska, której pełne postanowienia dostępne są pod adresem: ; -

Digitalizacja:

Muzeum i Instytut Zoologii Polskiej Akademii Nauk

Lokalizacja oryginału:

Biblioteka Muzeum i Instytutu Zoologii PAN

Dofinansowane ze środków:

Program Operacyjny Polska Cyfrowa, lata 2014-2020, Działanie 2.3 : Cyfrowa dostępność i użyteczność sektora publicznego; środki z Europejskiego Funduszu Rozwoju Regionalnego oraz współfinansowania krajowego z budżetu państwa

Dostęp:

Otwarty

Kolekcje, do których przypisany jest obiekt:

Data ostatniej modyfikacji:

4 lut 2022

Data dodania obiektu:

29 gru 2020

Liczba pobrań / odtworzeń:

73

Wszystkie dostępne wersje tego obiektu:

https://rcin.org.pl./publication/107868

Wyświetl opis w formacie RDF:

RDF

Wyświetl opis w formacie RDFa:

RDFa

Wyświetl opis w formacie OAI-PMH:

OAI-PMH

×

Cytowanie

Styl cytowania:

Ta strona wykorzystuje pliki 'cookies'. Więcej informacji