Abstract
The freshwater resources of Asia are under enormous pressure given the high and increasing population densities of the region, and the serious degradation of many lakes and rivers due to agricultural, industrial and urban development. Global climate change is likely to exacerbate these pressures through changes in the hydrological balance; influences on stratification, algal blooms and deep water re-oxygenation; and for high altitude sites such as lakes on the Mongolian Plateau, accelerated permafrost melting and desertification. Eutrophication and other processes of water quality degradation are especially severe in many parts of China. At Lake Taihu, a drinking water supply for 40 million people in central China, toxic cyanobacterial blooms now occur throughout the year. In the Province of Yunnan, many of the shallow lake waters are highly polluted and are of human health concern. Lake Biwa, Japan’s largest freshwater body, has experienced many environmental problems over the last 50 years including loss of species habitat, changes in oxygen content, and blooms of noxious cyanobacteria. Two multi-disciplinary research programs involving specialists in hydrodynamics, bio-optics, biogeochemistry and freshwater ecology have generated new insights into the structure and functioning of the Lake Biwa ecosystem, and have contributed an improved understanding of the processes affecting water quality. The Biwako Transport Experiment (BITEX’93) provided new information about physical-biotic coupling in the lake, and revealed the stimulatory effects of typhoons on south basin populations of phytoplankton. Measurements of water currents also showed that toxic cyanobacteria can be transported via a reverse surface flow from the South to North Basins during typhoon events. A subsequent program, Cyanobacterial Risk Assessment at Biwako (CRAB), resulted in predictive bio-optical models and elucidated the importance of stratification and advection processes for cyanobacterial bloom development. The algal bloom populations are favored by diurnally stratified, nutrient-rich conditions inshore and are then advected via a gyre into the main basin of the lake where the cells can continue their growth on stored reserves. The successful management of Lake Biwa, and lakes elsewhere, will especially depend on an improved scientific understanding of the limnological controls on water quality. It will also be fostered by cross-disciplinary and international exchanges of information, and a commitment by scientists, residents and others with a vested interest in water quality, including regulatory authorities, to work together towards the common goal of long term, integrated protection of the lake and its surrounding watershed.
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References
Belzile, C., W. F. Vincent, and M. Kumagai. 2002. Contribution of absorption and scattering to the attenuation of UV and photosynthetically available radiation in Lake Biwa. Limnol. Oceanogr. 47: 95–107.
Brown, L. R., and B. Halweil. 1998. China’s water shortage could shake world food security. World Watch. July/August: 10–18.
Edmondson, W. T. 1991. The uses of ecology: Lake Washington and beyond. Univ. Washington Press.
Elser, J., L. Gudea, M. Kyle, T. Ishikawa, and J. Urabe. 2001. Effects of zooplankton on nutrient availability and seston C:N:P stoichiometry in inshore waters of Lake Biwa, Japn. Limnology. 2: 91–100.
Frenette, J-J., W. F. Vincent, L. Legendre, and T. Nagata. 1996a. Size-dependent phytoplankton responses to atmospheric forcing in Lake Biwa. J. Plank. Res. 18: 371–391.
Frenette, J-J., W. F. Vincent, and. T. Nagata. 1996b. Size-dependent changes in phytoplankton C and N uptake in the dynamic mixed layer of Lake Biwa. Freshwater Biol. 36: 221–236.
Frenette, J-J., W. F. Vincent, and.T. Nagata., T. Nagata, K. Kawabata, and M. Kumagai. 1996c. Biological responses to typhoon-induced mixing in two morphological distinct basins of Lake Biwa. Japn. J. Limnol. 57: 501–510.
Frenette, J-J., W. F. Vincent, and. T. Nagata. 1998. Size-dependent C:N uptake by phytoplankton as a function of irradiance: Ecological implications. Limnol. Oceanogr. 43: 1362–1368.
Hashitani, H., M. Okumura, and Y. Seike. 1996. Determination of low levels of phosphate phosphorus in environmental waters by preconcentration using activated carbon loaded with zirconium. Japn. J. Limnol. 57: 479–484.
Hayakawa, K., S. Tsujimura, G. E. Napolitano, S. Nakano, M. Kumagai, T. Nakajima, and C. jiao. 2002. Fatty acid composition as an indicator of physiological condition of the cyanobacterium Microcystis aeruginosa. Limnology. 3: 29–35.
Hayami, Y., T. Fujiwara, and M. Kumagai. 1996. Internal surge in Lake Biwa induced by strong winds of a typhoon. Japn. J. Limnol. 57: 425–444.
Horie, S. [ed.]. 1984. Lake Biwa. Dordrecht. Junk.
Hosoda, T., and T. Hosomi. 2002. A simplified model to predict seasonal variations of vertical water quality distributions in Lake Biwa and its applications. Advances in River Engineering. JSCE. 8: 495–500 (in Japanese).
ISHIGURO, N. 2002. Some hypothesis concerning the oxygen supply at the bottom of Lake Geneva. Annals of Ochanomizu Geographical Society (Ochanomizu Chin). 43: 33–40 (in Japanese).
ISHIKAWAT., and J. Urabe. 2002. Population dynamics and production of Jesogammarus annandalei, an endemic amphipod, in Lake Biwa, Japan. Freshwater Biol. 47: 1935–1943.
ISHIKAWA,K., M. Kumagai, S. Nakano, and H. Nakahara. 1999. The influence of wind on the horizontal distribution of bloom-forming cyanobacteria in Akanoi Bay. Japn. J. Limnol. 60: 531–537.
Ishikawa, K., M. Kumagai, S. Nakano, W. F. Vincent, S. Tsujimura, and H. Nakahara. 2002a. Transport
Ishikawa, K., and accumulation of bloom-forming cyanobacteria in a large, mid-latitude lake: the gyre-Microcystis hypothesis, Limnology. 3: 87–96.
Ishikawa, K., S. Tsujimura, W. F. Vincent, M. Kumagai, and H. Nakahara. 2002b. Growth of bloom-forming cyanobacteria under low nutrient conditions. Vech. Internat. Verein. Limnol. 28: 1–6.
Jiao, C., and M. Kumagai. 1995. Large amplitude nonlinear internal surge in Lake Biwa. Japn. J. Limnol. 56: 279–289.
Kawabata, K., and J. Urabe. 1996. Population dynamics of planktonic crustacea studied during BITEX’93. Japn. J. Limnol. 57: 545–552.
Kimura, Y. 2001. Lake Biwa: the origin of the name. Omi Bunko (in Japanese).
Krra, T. [ed.]. 1984. Data book of world lakes. Shiga Conference ‘84.
Kumagai, M. 2001. Seeking wisdom in limnology. Limnology. 1: 1–2.
Kumagai, M. , K. Ishikawa, and C. Jiao. 200la. Gyre and its related ecosystem I Lake Biwa. In: Kada, Y., M. Kumagai, S. Terakawa, M. Terada, T. Nakajima, and T. Nunotani [eds.], Do you know about this lake? — 50 chapters talking about Lake Biwa. Sunrise Publishing (in Japanese).
Kumagai, M., and H. Fushimi. 1995. Inflows due to snowmelt, p.129–139. In: Okuda, S., J. Imberger, and M. Kumagai [eds.], Physical processes in a large lake: Lake Biwa, Japan. Coastal and Estuarine Studies. AGU Washington, D.C.
Kumagai, M., and H. Fushimi., and S. Nakano. [ed.]. 1996. Baseline Data Overviews of BITEX’93. Lake Biwa Stu. Monogr. LBRI.
Kumagai, M., and H. Fushimi., C. JIAO, K. Hayakawa, S. Tsujimura, T. Nakajima, J-J. Frenette
Kumagai, M.,and A. Quesada. 2000. Effect of cyanobacterial blooms on thermal stratification. Limnology 1: 191–195.
Kumagai, M., and R. Robarts. 1996. Biwako transport experiment’93. Japn. J. Limnol. 57: 367–558.
Kumagai, M., C. Shimoda, R. Tsuda, and T. Kodama. 1996. Benthic and intermediate nepheloid layers in Lake Biwa. Japn. J. Limnol. 57: 445–455.
Kumagai, M., T.Ura, Y.Kuroda, and R.Walker. 2001 b. A new autonomous underwater vehicle designed for lake environment monitoring. Advanced Robotics. 16: 17–26.
Kumagai, M., and J. Urabe. 2002. Mongolian steppe and lake. Geography. 47: 50–55 (in Japanese).
Kumagai, M., and J. Urabe., C.E. Goulden, N. Soninkhishig, D. Hadbaatar, S. Tsujimura, Y. Hayami, T. Sekino, and M. Maruo. 2003. Recent rise in water level at Lake Hövsgöl in Mongolia. In: Goulden, C.E., T. Sitnikova, J. Gelhaus, and B. Boldgiv [eds.], The Geology, Biodiversity and Ecology of Lake Hovsgol (Mongolia). Backhuys Belgium.
Lieth, H. 1975. Modeling the primary productivity of the world, p.237–263. In Lieth, H. and R.H.Whittaker [eds.], Primary productivity of the biosphere. Springer-Verlag.
Macintyre, S. 1996. Turbulent eddies and their implication for phytoplankton within the euphotic zone of Lake Biwa, Japan. Japn. J. Limnol. 57: 395–410.
Masunaga, S., Y. YAO, I. Ogura, S. Nakai, M. Yamamuro, and J. Nakanishi. 2001. Identifying sources and mass balance of dioxin pollution in Lake Shinji Basin, Japan. Environ. Sci. Technol. 35: 1967–1973.
Melack, J. M., M. Gastil, Y. Azuma, A. Harashima, and R. Tsuda. 1996. Remote sensing of chlorophyll, suspended solids and transparency in Lake Biwa, Japan. Japn. J. Limnol. 57: 367–375.
Mori, S., and T. Miura. 1990. List of plant and animal species living in Lake Biwa. Mem. Fac. Sci. Kyoto Univ., Ser. Biol. 14: 13–32.
Murphy, T., A. Lawson, M. Kumagai, and C. Nalewajiko. 2001. Release of phosphorus from sediments in Lake Biwa. Limnology 2: 119–128.
Murphy, T., M. Kumagai, and K. Irvine. 2002. The seasonal change in phosphorus dissolution in Lake Biwa sediments. Verh. Internat. Verein. Limnol. 28: 1–3.
Murphy, T., M. and. 2002. Variation in potential for phosphorus release in Lake Biwa sediments. Yunnan Geographic Environ. Res. 14: 41–50.
Nagata, T., T. Ogawa, J-J. Frenette, L. Legendre, and W. Vincent. 1996. Uncoupled responses of bacterial and algal production to storm-induced mixing in Lake Biwa. Japn. J. Limnol. 57: 533–543.
Naka, K. 1973. Secular variation of oxygen change in the deep water of Lake Biwa. Japn. J. Limnol. 34: 41–43.
Nakanishi, N., and M. Nagoshi. 1984. Yearly fluctuation of food habits of the Isaza, Chaenogobius isaza Tanaka, in Lake Biwa. Japn. J. Limnol. 45: 279–288 (in Japanese).
Nakano, S., K. Hayakawa, J-J. Frenette, T. Nakajima, C. Jiao, S. Tsujimura, and M. Kumagai. 2001. Cyanobacterial blooms in a shallow lake: a large-scale enclosure assay to test the importance of diurnal stratification. Arch. Hydobiol. 150: 491–509.
Nakano, S., Y. Seike, T. Sekino, M. Okumura, K. Kawabata, M. Nakanishi, O. Mitamura, M. Kumagai, and H. Hashitani. 1996. A rapid growth of Aulacoseira granulata (Bacillariophyceae) during the typhoon season in the South Basin of Lake Biwa. Japn. J. Limnol. 57: 493–500.
Nalewajko, C., and T. Murphy. 2001. Effects of temperature, and availability of nitrogen and phosphorus on the abundance of Anabaena and Microcystis in Lake Biwa, Japan: an experimental approach. Limnology 2: 45–48.
Nishino, M., M. Fukui, and T. Nakajima. 1998. Dense mat of Thioploca, gliding filamentous sulfur-oxydizing bacteria in Lake Biwa, Central Japan. Water Res. 32: 953–957.
Nippon Astronomical Observatory. 2002. Chronological Scientific Tables. Maruzen (in Japanese).
Niglas. 1990. Fuxian Lake. Ocean Press Beijing.
Ogawa, N. O., T. Koitabashi, H. ODA, T. Nakamura, N. Ohkouchi, and E. Wada. 2001. Fluctuations of nitrogen isotope ratio of gobiid fish (Isaza) specimens and sediments in Lake Biwa, Japan, during the 20th century. Limnol. Oceanogr. 46: 1228–1236.
Ogawa, T. and T. Nagata. 1996. Effects of storm disturbance on bacterial utilization of dissolved amino acids in the shallow, eutrophic South Basin of Lake Biwa. Japn. J. Limnol. 57: 523–531.
Pu, P., M. Kumagai, and R. Robarts. [eds.]. 1998, ANSWER’97 Proceedings. J. Lake Sciences. 10: 1–597.
Rmel. 2001, An international workshop on the restoration and management of eutrophicated lakes. Kunming, 1–227.
Robarts, R., M. Waiser, O. Hadas, T. Zohar, and S. Macintyre. 1998. Relaxation of phosphorus limitation due to typhoon-induced mixing in two morphologically distinct basins of Lake Biwa, Japan. Limnol. Oceanogr. 43: 1023–1036.
Saggio, A. and J. Imberger. 1998. Internal wave weather in a stratified lake. Limnol. Oceanogr. 43: 1780–1795.
Sakai, S., S. Deguchi, S. Urano, H. Takatsuki, and K. Megumi. 1999. Time trend of PCDDs/DFs in Lake Biwa and Osaka Bay. J. Environ. Chem. 9: 379–390.
Sakamoto, M., and T. Inoue. 1996. Typhoon-induced temporal change in plankton phosphorus in Lake Biwa. Japn. J. Limnol. 57: 511–522.
Seike, Y., S. Nakano, M. Okumura, A. Hirayama, O. Mitamura, K. Fujinaga, M. Nakanishi, H. Hashitan, and M. Kumagai. 1996. Temporal variations in the nutritional state of phytoplankton communities in Lake Biwa due to typhoon. Japn. J. Limnol. 57: 485–492.
Tanaka, Y., T. Kimoto, and R. Tsuda. 1996. Turbid water penetration from Yasu River into Lake Biwa at the seasonal thermocline. Japn. J. Limnol. 57: 457–465.
Tanaka, and R. Tsuda. 1996. Daily fluctuations in thermal stratification, chlorophyll a, turbidity and dissolved oxygen concentration in Lake Biwa. Japn J. Limnol. 57: 377–393.
Toda, T. 1996. Satellite thermal remote sensing in the BITEX’93 area. Japn. J. Limnol. 57: 553–558.
Trevorrow, M. V. 1996. Multi-frequency Acoustic Measurements of near-surface air bubbles in Lake Biwa. Japn.n. J. Limnol. 57: 411–423.
Trevorrow, and Y. Tanaka. 1997. Acoustic and in situ measurements of freshwater amphipods (Jesogammarus anandalei) in Lake Biwa, Japan. Limnol. Oceanogr. 42: 121–132.
Urabe, J., and K. Kawabata. 1996. Grazing and food selection of zooplankton community in Lake Biwa during BITEX’93. Japn. J. Limnol. 57: 27–37.
Vincent, W. F. 1989. Cyanobacterial growth and dominance in two eutrophic lakes: review and synthesis. Ergebnisse der Limnologie 32: 239–254.
Vincent, M. M. Gibbs, and R. H. Spigel. 1991. Eutrophication processes regulated by a plunging river inflow. Hydrobiologia 226: 51–63.
Vincent, C. L. Vincent, M. T. Downes, and P. J. Richerson. 1985. Nitrate cycling in Lake Titicaca ( Peru-Bolivia ): The effects of high altitude and tropicality. Freshwater Biology 15: 31–42.
Vincent, M. Kumagai, C. Belzile, K. Ishikawa, and K. Hayakawa. 2001. Effects of seston on ultraviolet attenuation in Lake Biwa. Limnology. 2: 179–184.
Walker, R., and M. Kumagai. 2000. Image analysis as a tool for quantitative phycology–A computational approach to cyanobacterial taxa identification. Limnology. 1: 107–116.
Walker, R., K. Ishikawa, and M. Kumagai. 2002. Fluorescence-assisted image analysis of freshwater microalgae. Microbiological Methods. 51: 149–162.
Yamada, Y., T. Ueda, and E. Wada. 1996. Distribution of carbon and nitrogen isotope ratios in the Yodo River watershed. Japn. J. Limnol. 57: 467–477.
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Kumagai, M., Vincent, W.F., Ishikawa, K., Aota, Y. (2003). Lessons from Lake Biwa and Other Asian Lakes: Global and Local Perspectives. In: Kumagai, M., Vincent, W.F. (eds) Freshwater Management. Springer, Tokyo. https://doi.org/10.1007/978-4-431-68436-7_1
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DOI: https://doi.org/10.1007/978-4-431-68436-7_1
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