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Journal articles on the topic 'Limnology'

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Published: 4 June 2021
Last updated: 30 July 2024

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1

Stewart, Sarah. "Limnology." Matter: Journal of New Materialist Research 6 (July 27, 2022): 144–47. http://dx.doi.org/10.1344/jnmr.v3i2.40229.

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2

Sánchez-Hernández, Javier. "George Evelyn Hutchinson’s legacy in modern ecology and limnology." Boletín de la Real Sociedad Española de Historia Natural 115 (2021): 175–85. http://dx.doi.org/10.29077/bol.115.e06.sanchez.

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George Evelyn Hutchinson is recognised as one of the best limnologists and ecologists of the 20th century, whose contributions have been key for the development of modern ecology and limnology. His most important contributions nclude, concepts, theories and classifications currently used such as, for example, the ecological niche concept, Hutchinson’s paradox and lake classifications. Hutchinson redefined the ecological niche concept based on previous ideas of Grinnell and Elton, suggesting that it should be considered as a hypervolume in the environmental space caused by the ultidimensional response of variables that determine the stability of populations. This new perception of the ecological niche has been fundamental for the development of other investigations in different fields of biology, in particular in ecology, evolution, and biogeography. Furthermore, Hutchinson’s treatise on limnology is considered as the most extensive compilation of limnology. Hutchinson aimed to answer why several species of phytoplankton that compete for the same resources can coexist in an aquatic ecosystem which is usually nutrient deficient (known as the Hutchinson’s paradox). The scientific advances promoted by Hutchinson have inspired many generations of biologists. George Evelyn Hutchinson es reconocido como uno de los mejores limnólogos y ecólogos del siglo XX, cuyas aportaciones han sido cruciales para el desarrollo de la ecología y limnología moderna. Sus más importantes contribuciones incluyen conceptos, teorías y clasificaciones vigentes en la actualidad como, por ejemplo, el concepto de nicho ecológico, la paradoja de Hutchinson y las clasificaciones de lagos. A partir de las ideas de Grinnell y Elton, Hutchinson sugirió que el concepto de nicho ecológico debía considerarse como un hipervolumen en el espacio ambiental originado por la respuesta multidimensional de las variables que determinan la estabilidad de las poblaciones. Esta nueva percepción del nicho ecológico ha sido fundamental para el desarrollo de otras investigaciones en diferentes campos de la biología, particularmente en la ecología, la evolución y la biogeografía. Por otro lado, el tratado de limnología realizado por Hutchinson es considerado como la recopilación más extensa de la limnología. Hutchinson intentó dar respuesta a por qué varias especies del fitoplancton que compiten por los mismos recursos pueden coexistir en un ecosistema acuático que por naturaleza suele ser deficiente en nutrientes (conocido como la paradoja de Hutchinson). Los avances científicos promovidos por Hutchinson han servido de fuente de inspiración a muchas generaciones de biólogos.
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3

Kilham, Peter. "Tropical Limnology." Ecology 66, no. 1 (February 1985): 318–19. http://dx.doi.org/10.2307/1941343.

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4

Horne, Alex J. "Applied Limnology." Ecology 66, no. 1 (February 1985): 319–20. http://dx.doi.org/10.2307/1941344.

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5

Trama, Francesco B. "Current Limnology." BioScience 39, no. 7 (July 1989): 495–96. http://dx.doi.org/10.2307/1311146.

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6

Lehman, John T. "Predictive Limnology." Ecology 78, no. 1 (January 1997): 326–27. http://dx.doi.org/10.1890/0012-9658(1997)078[0326:pl]2.0.co;2.

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7

Lewis, W. M. "Tropical Limnology." Annual Review of Ecology and Systematics 18, no. 1 (November 1987): 159–84. http://dx.doi.org/10.1146/annurev.es.18.110187.001111.

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8

Dodson, Stanley I. "Introduction to limnology." Journal of the North American Benthological Society 23, no. 3 (September 2004): 661–62. http://dx.doi.org/10.1899/0887-3593(2004)023<0661:itl>2.0.co;2.

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9

Stow, Craig A., John J. Magnuson, Frank H. Rigler, and Robert H. Peters. "Science and Limnology." Ecology 77, no. 5 (July 1996): 1646. http://dx.doi.org/10.2307/2265563.

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10

Calow, Peter, Frank H. Rigler, and Robert H. Peters. "Science and Limnology." Journal of Animal Ecology 64, no. 6 (November 1995): 791. http://dx.doi.org/10.2307/5865.

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11

Daiber, Franklin C., Frank H. Rigler, and Robert H. Peters. "Science and Limnology." Estuaries 19, no. 1 (March 1996): 163. http://dx.doi.org/10.2307/1352662.

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12

Alcocer, Javier, and Fernando W. Bernal-Brooks. "Limnology in Mexico." Hydrobiologia 644, no. 1 (March 21, 2010): 15–68. http://dx.doi.org/10.1007/s10750-010-0211-1.

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13

Den Hartog, C. "Limnology in Australia." Aquatic Botany 40, no. 4 (January 1991): 394–96. http://dx.doi.org/10.1016/0304-3770(91)90085-j.

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14

Slobodkin, Lawrence B. "Science and limnology." Trends in Ecology & Evolution 10, no. 9 (September 1995): 384–85. http://dx.doi.org/10.1016/s0169-5347(00)89145-4.

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15

Gasol, Josep M. "Jacob Kalff: Limnology." International Microbiology 5, no. 1 (March 2002): 45–46. http://dx.doi.org/10.1007/s10123-002-0059-y.

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16

Lind, Owen T. "Textbook of Limnology." Limnology and Oceanography Bulletin 25, no. 4 (September 22, 2016): 137–38. http://dx.doi.org/10.1002/lob.10142.

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17

Sapelko T.V., T. V. "Limnology in Russia." Limnology and Freshwater Biology, no. 3 (2024): 111–29. http://dx.doi.org/10.31951/2658-3518-2024-a-3-111.

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</jats:p> </jats:abstract> <publication_date media_type='online'> <year>2024</year> </publication_date> <pages> <first_page>107</first_page> <last_page>110</last_page> </pages> <doi_data> <doi>10.31951/2658-3518-2024-A-3-107</doi> <resource>http://limnolfwbiol.com/index.php/LFWB/article/view/1205</resource> </doi_data> </journal_article> <!-- ============== --> <journal_article publication_type='full_text'> <titles> <title>Surface sediments of Karelian lakes: their formation peculiarities and chemical composition</title> </titles> <contributors> <person_name sequence='first' contributor_role='author'> <given_name>N.A.</given_name> <surname>Belkina N.A.</surname> </person_name> <organization sequence='first' contributor_role='author'>Northern Water Problems Institute, Karelian Research Centre of the Russian Academy of Sciences, Aleksander Nevsky Str., 50, Petrozavodsk, 185030, Russia</organization> </contributors> <jats:abstract xml:lang='en'> <jats:p>The territory of Karelia is a unique geographical region, where currently more than 62,000 lakes function in a humid climate, being at different stages of the evolution of their ecosystems. In this study, we analyzed the data on the chemical composition of the bottom sediments of Karelian lakes collected during the period 1965-2020. The patterns of the formation of the chemical composition of the bottom sediments of lakes are discussed. It is shown that in the lakes of the southeastern part of the Fennoscandian Crystal Shield, the bottom sediments of a mixed type are currently being formed: iron-humus-silicon, iron-silicon-humus, or humus-iron-silicon. There are small lakes where the bottom sediments accumulate either silicon (diatomite), iron (lake ore), or organic matter.
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18

Даценко, Юрий Сергеевич. "ОСОБЕННОСТИ И РАЗЛИЧИЯ АБИОТИЧЕСКИХ КОМПОНЕНТОВ ЭКОСИСТЕМ ОЗЕР И ВОДОХРАНИЛИЩ (ОБЗОР)." Российский журнал прикладной экологии, no. 1 (March 25, 2022): 39–47. http://dx.doi.org/10.24852/2411-7374.2022.1.39.47.

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Интенсивность и направленность процессов круговорота вещества и энергии в водоемах замедленного водообмена в значительной степени зависят от особенностей действия абиотических факторов функционирования экосистем. Разнообразие проявления этих факторов в озерах и водохранилищах определяется географическим положением водного объекта, морфологическими характеристиками его ложа и степенью антропогенного влияния на водоем. В работе анализируются закономерности географического распределения озер и водохранилищ и их влияние на интенсивность продукционно-деструкционных процессов. В табличной форме представлены различия абиотических факторов в озерах и водохранилищах, связанных с географической зональностью. В качестве этих факторов рассматриваются гидрологический и гидрохимический режим водоемов. Гидрологические факторы включают структуру водного баланса, интенсивность внешнего водообмена, колебания уровня воды, величина водного притока и стока и температура воды. В качестве важнейших гидрохимических факторов рассматриваются величины нагрузки взвешенными растворенными веществами. Влияние морфологических характеристик анализируются на основе особенностей генезиса озер и водохранилищ. К основным особенностям абиотических воздействий в экосистемах в этом случае из элементов гидрологического режима относятся гидрологическая структура водных масс, характеристики гравитационной неустойчивости вод, термическая стратификация в периоды стагнации, оптические свойства водных масс. Из анализируемых гидрохимических характеристик рассматриваются закономерности содержания и распределения биогенных и органических веществ и растворенного кислорода в озерах и водохранилищах. Отмечается, что выявленные различия привели к необходимости корректировки для водохранилищ широко распространенных озерных балансовых полуэмпирических моделей эвтрофирования. Библиографические ссылки 1. Авакян А.Б., Салтанкин В.П., Шарапов В.А. Водохранилища. М.: Мысль, 1987. 325 с.2. Даценко Ю.С. Особенности использования балансовых моделей при оценке эвтрофирования водохранилищ // Вестн. Моск. ун‒та. сер. 5. География. 1992. №3. С. 33‒37.3. Даценко Ю.С. Эвтрофирование водохранилищ. М.: ГЕОС, 2007. 252 с.4. Доманицкий А.П., Дубровина Р.Г., Исаева А.И. Реки и озера Советского Союза. Л.: Гидрометеоиздат, 1971. 104 с.5. Измайлова А.В. Водные ресурсы Российской Федерации и тенденции их изменения, обусловленные антропогенным фактором. // Вопросы географии. Гидрологические изменения. 2008. Вып. 145. С. 347‒359.6. Измайлова А.В. Озера России. Закономерности распределения, ресурсный потенциал. СПб.: Папирус, 2018. 288 с.7. Минеева Н.М. Растительные пигменты в воде волжских водохранилищ. М.: Наука, 2004. 156с.8. Первухин М.А. О генетической классификации озерных ванн // Землеведение. 1937. №6. С. 526‒537.9. Эдельштейн К.К. Водные массы долинных водохранилищ. М.: Изд‒во МГУ, 1991. 175 с.10. Эдельштейн К.К. Водохранилища России. Экологические проблемы и пути их решения. М.: ГЕОС, 1998. 277 с.11. Эдельштейн К.К. Гидрология материков. М.: Юрайт, 2019. 298 с.12. Biswas A.K. A short history of hydrology // Selected works in water resources. International water resources association champaign, 1975. Р. 57‒79.13. Brylinsky M., Mann K.N. An analysis of factors governing productivity in lakes and reservoirs. // Limnology and oceanography. 1973. Vol. 18. P. 1‒14.14. Canfield D.E., Bachman R.W. Prediction of total phosphorus concentrations, chlorophyll‒a, and Secchi depth in natural and artificial lakes // Canadian journal of fisheries and aquatic sciences. 1981. Vol. 38. P. 414‒423.15. Edelstein K.K. Hydrologic peculiarities of valley reservoirs // Internationale Revue der gesamten Hydrobiologie und Hydrographie. 1995. Vol. 80. P. 27‒48.16. Graf W.L. Dam nation: A geographic census of American dams and their large‒scale hydrologic impacts. // Water resources. 1999. Vol. 35. P. 1305‒1311.17. Hutchinson G.E. A treatise on limnology. Vol. 1. Geography, physics, and chemistry. John Wilei and Sons, Inc., New York, 1957. 1015 p.18. Imboden D.N., Lerman A. Chemical models of lakes // Lakes: chemistry, geology, physics. New York: Springer, 1978. P. 341‒35619. Ryder R.A. Ecological heterogeneity between north‒temperate reservoirs and glacial lake systems due to differing succession rates and cultural uses // Verhandlungen derinternationalen vereinigung für theoretische und angewandte limnologie. 1978. Vol. 20. P. 1568‒1574.20. Schuiling R.D. Sources and composition of lake sediments // Interactions Between Sediments and Freshwater. The Hague, 1976. p. 12‒18.21. Straskraba M., Tundisi J.D., Duncan A. State‒of‒art of reservoir limnology and water quality management // Comparative reservoir limnology and water quality management. Kluwer Academic Publishers, 1993. P. 213‒289.22. Thornton K.W. Regional comparison of lakes and reservoirs: geology, climatology and morphology // Proc. of Third Annual Conf. North American Lakes Management Society. Knoxville, Tennessee, 1984. P. 261‒265.23. Thornton K.W., Kimmel B.L., Payne F.E. Reservoir limnology: ecological perspectives. Wiley. New‒York, 1990. 246 p.24. Tundisi J.G. Typology of reservoirs in Southern Brazil // Verhandlungen der internationalen vereinigung für theoretische und angewandte limnologie. 1981. Vol. 21. P. 1031‒1039.25. Walker W.W. Empirical method for predicting eutrophication in impoundments // Technical Report E‒81‒9. US Army Corps of Engineers. Concord, Massachusetts, 1985. 297 p.26. Wetzel R.G. Limnology. Philadelphia, 1975. 743 p.
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19

Kilham, Susan Soltau, and Peter Kilham. "Tropical limnology: Do African lakes violate the “first law” of limnology?" SIL Proceedings, 1922-2010 24, no. 1 (December 1990): 68–72. http://dx.doi.org/10.1080/03680770.1989.11898692.

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20

Šabić, Dejan. "Limnology of professor Stevana M. Stanković." Zbornik radova - Geografski fakultet Univerziteta u Beogradu, no. 70 (2022): 37–56. http://dx.doi.org/10.5937/zrgfub2270037s.

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Natural and artificial lakes are hydrographic objects of multiple importance, time of creation, dimensions and evolution. They are significant for a number of natural phenomena and processes, as well as for numerous human activities. The science of lakes is called limnology and is a part of terrestrial water hydrology. The first scientific data, from a geographical aspect, about the large lakes of Old Serbia, Macedonia and Greece was presented by Jovan Cvijić in his geomorphological studies. From the biological aspect, the limnological works of Siniša Stanković are significant. Based on the works of these scientists, research and publication of works by professor Stevan M. Stanković, who in his own way revitalized the limnology of our expanses. In this paper, we present his oeuvre from the domain of limnology.
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21

Jumars, Peter A. "W(h)ither limnology?" Limnology and Oceanography 35, no. 5 (July 1990): 1216–18. http://dx.doi.org/10.4319/lo.1990.35.5.1216.

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22

Smith, Ralph. "Limnology—Inland water ecosystems." Journal of the North American Benthological Society 21, no. 2 (June 2002): 346–47. http://dx.doi.org/10.2307/1468422.

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23

Galat, David. "Reservoir Limnology: Ecological Perspectives." Transactions of the American Fisheries Society 121, no. 5 (September 1, 1992): 696–98. http://dx.doi.org/10.1577/1548-8659-121.5.696.

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24

Rumyantsev, V. A., L. N. Kryukov, Sh R. Pozdnyakov, and V. N. Rybakin. "Nanoscale elements of limnology." Herald of the Russian Academy of Sciences 81, no. 5 (October 2011): 546–51. http://dx.doi.org/10.1134/s1019331611050042.

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25

Basavarajappa, S., N. Raju, and S. Hosmani. "Limnology: A Critical Review." Current World Environment 9, no. 3 (December 31, 2014): 741–59. http://dx.doi.org/10.12944/cwe.9.3.23.

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26

Kumagai, M. "Seeking wisdom in limnology." Limnology 1, no. 1 (April 28, 2000): 1–2. http://dx.doi.org/10.1007/s102010070022.

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27

Nakano, Shin-ichi, Masumi Yamamuro, and Jotaro Urabe. "HISTORY OF JAPANESE LIMNOLOGY." Limnology and Oceanography Bulletin 19, no. 4 (December 2010): 78–82. http://dx.doi.org/10.1002/lob.201019477.

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28

Catalan, Jordi. "Limnology in the Pyrenean lakes." Limnetica 8, no. 1 (June 15, 1992): 27–38. http://dx.doi.org/10.23818/limn.08.03.

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29

Álvarez-Cobelas, Miguel. "Groundwater-mediated limnology in Spain." Limnetica 25, no. 1 (June 15, 2006): 107–22. http://dx.doi.org/10.23818/limn.25.08.

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30

Casamitjana, Xavier, J. Colomer, E. Roget, and T. Serra. "Physical Limnology in Lake Banyoles." Limnetica 25, no. 1 (June 15, 2006): 181–88. http://dx.doi.org/10.23818/limn.25.14.

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31

Melack, John M. "Recent developments in tropical limnology." SIL Proceedings, 1922-2010 26, no. 1 (December 1996): 211–17. http://dx.doi.org/10.1080/03680770.1995.11900704.

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32

Burns, Carolyn W. "W(h)ither limnology? — revisited." SIL Proceedings, 1922-2010 28, no. 1 (February 2002): 1–5. http://dx.doi.org/10.1080/03680770.2001.11902543.

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33

King, Robert H. "Handbook of Limnology. J. Schwoerbel." Journal of the North American Benthological Society 8, no. 3 (September 1989): 291. http://dx.doi.org/10.2307/1467336.

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34

Hajratwala, Minal. "Limnology of the Minor Goddesses." Prairie Schooner 93, no. 4 (2019): 42–47. http://dx.doi.org/10.1353/psg.2019.0120.

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35

Lembi, Carole A. "Limnology, Lake and River Ecosystems." Journal of Phycology 37, no. 6 (December 2001): 1146–47. http://dx.doi.org/10.1046/j.1529-8817.2001.37602.x.

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36

MACINTYRE, S. "Aquatic Studies: Limnology in Australia." Science 236, no. 4808 (June 19, 1987): 1579–81. http://dx.doi.org/10.1126/science.236.4808.1579-a.

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37

Peimin, Pu, Tu Qingying, and Wang Sumin. "Progress of limnology in China." Chinese Journal of Oceanology and Limnology 9, no. 3 (September 1991): 193–206. http://dx.doi.org/10.1007/bf02850745.

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38

Jumars, Peter. "LIMNOLOGY AND OCEANOGRAPHY EDITORIAL CHANGES." ASLO Bulletin 1, no. 1 (September 1990): 4. http://dx.doi.org/10.1002/lob.1990114.

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39

Lewis, William M. "PUBLISHING LIMNOLOGY, NOW AND THEN." Limnology and Oceanography Bulletin 14, no. 2 (June 2005): 25–30. http://dx.doi.org/10.1002/lob.200514225.

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40

Moss, Brian. "LIMNOLOGY AND THE PERFECT STORM." Limnology and Oceanography Bulletin 22, no. 3 (August 2013): 70. http://dx.doi.org/10.1002/lob.201322369.

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41

Meinson, Pille, Agron Idrizaj, Peeter Nõges, Tiina Nõges, and Alo Laas. "Continuous and high-frequency measurements in limnology: history, applications, and future challenges." Environmental Reviews 24, no. 1 (March 2016): 52–62. http://dx.doi.org/10.1139/er-2015-0030.

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Over the past 15 years, an increasing number of studies in limnology have been using data from high-frequency measurements (HFM). This new technology offers scientists a chance to investigate lakes at time scales that were not possible earlier and in places where regular sampling would be complicated or even dangerous. This has allowed capturing the effects of episodic or extreme events, such as typhoons on lakes. In the present paper we review the various fields of limnology, such as monitoring, studying highly dynamic processes, lake metabolism studies, and budget calculations, where HFM has been applied, and which have benefitted most from the application. Our meta-analysis showed that more than half of the high-frequency studies from lakes were made in North America and Europe. The main field of application has been lake ecology (monitoring, lake metabolism) followed by physical limnology. Water temperature and dissolved oxygen have been the most universal and commonly measured parameters and we review the various study purposes for which these measurements have been used. Although a considerable challenge for the future, our review highlights that broadening the spatial scale of HFM would substantially broaden the applicability of these data across a spectrum of different fields.
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Rzymski, Piotr, Piotr Klimaszyk, and Włodzimierz Marszelewski. "Limnological Review: Opening a New Chapter." Limnological Review 22, no. 1 (April 21, 2023): 2–3. http://dx.doi.org/10.3390/limnolrev22010002.

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43

Uhlmann, D. "Fortschritte der Limnologie – 23. Kongreß der International Association of Limnology (SIL), Hamilton, Neuseeland, 9.–14.2.1987." Acta Hydrochimica et Hydrobiologica 16, no. 2 (1988): 221–29. http://dx.doi.org/10.1002/aheh.19880160215.

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Corredor, Jorge E. "LIMNOLOGÍA Y OCEANOGRAFÍA EN UN MUNDO EN CAMBIO LIMNOLOGY AND OCEANOGRAPHY IN A CHANGING WORLD." Limnology and Oceanography Bulletin 18, no. 4 (December 2009): 95–96. http://dx.doi.org/10.1002/lob.200918495a.

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Prats Rodríguez, Jordi, Rafael Morales Baquero, Josep Dolz Ripollés, and Joan Armenol Baquero. "Contributions from limnology to reservoir management." Ingeniería del agua 18, no. 1 (August 4, 2014): 80. http://dx.doi.org/10.4995/ia.2014.3145.

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46

Lehman, John T. "The goal of understanding in limnology." Limnology and Oceanography 31, no. 5 (September 1986): 1160–66. http://dx.doi.org/10.4319/lo.1986.31.5.1160.

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47

Fatema, Kaniz, Wan Maznah Wan Omar, and Mansor Mat Isa. "Limnology of Merbok estuary, Kedah, Malaysia." Bangladesh Journal of Zoology 41, no. 1 (May 11, 2015): 13–19. http://dx.doi.org/10.3329/bjz.v41i1.23294.

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Abstract:
Water quality in three different stations of Merbok estuary was investigated limnologically from October, 2010 to September, 2011. Water temperature, transparency and total suspended solids (TSS) varied from 27.45 - 30.450C, 7.5 - 120 cm and 10 -140 mg/l, respectively. Dissolved Oxygen (DO) concentration ranged from 1.22-10.8 mg/l, while salinity ranged from 3.5-35.00 ppt. pH and conductivity ranged from 6.35 - 8.25 and 40 - 380 ?S/cm, respectively. Kruskal Wallis H test shows that water quality parameters were significantly different among the sampling months and stations (p<0.05). This study revealed that DO, salinity, conductivity and transparency were higher in wet season and TSS was higher in dry season. On the other hand, temperature and pH did not follow any seasonal trends.Bangladesh J. Zool. 41(1): 13-19, 2013
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Lehman, John T., Lars Hakanson, and Robert H. Peters. "Predictive Limnology: Methods for Predictive Modelling." Ecology 78, no. 1 (January 1997): 326. http://dx.doi.org/10.2307/2266003.

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Marcé, Rafael. "Limnology of Foix reservoir (Barcelona, Spain)." Limnetica 19, no. 1 (December 15, 2000): 175–91. http://dx.doi.org/10.23818/limn.19.10.

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Peimin, Pu, Tu Qingying, and Wang Sumin. "Researeh progress of limnology in china." Journal of Lake Sciences 1, no. 1 (1989): 1–11. http://dx.doi.org/10.18307/1989.0101.

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