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http://dx.doi.org/10.4490/algae.2019.34.1.15

Hydrurus foetidus (Chrysophyceae): an update and request for observations  

Klaveness, Dag (Department of Biological Sciences, University of Oslo)
Publication Information
ALGAE / v.34, no.1, 2019 , pp. 1-5 More about this Journal
Abstract
Hydrurus foetidus is a cold-water golden alga (Chrysophyceae) found in fast-flowing rivers mainly during time of snowmelt. It has primarily been studied by scientists located near alpine or northern locations, but there are also observations both in south and north America, Russia, Japan, in the Hope Bay area (Antarctica) and Himalaya. If and where environmental conditions are appropriate, Hydrurus may be distributed "worldwide." More information is wanted from areas where its presence may be expected.
Keywords
chrysophyceae; distribution; Hydrurus; morphology; psychrophile; rheophile;
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1 Barinova, S., Medvedeva, L. & Nevo, E. 2008. Regional influences on algal biodiversity in two polluted rivers of Eurasia (Rudnaya River, Russia, and Qishon River, Israel) by bioindication and canonical correspondence analysis. Appl. Ecol. Environ. Res. 6:29-59.   DOI
2 Bursa, A. 1934. Hydrurus foetidus Kirch. w Polskich Tatrach. - Hydrurus foetidus Kirch. in der Polnischen Tatra. I. Oekologie, Morphologie. II. Phenologie. Bull. Int. Acad. Pol. Sci. Lett. Cl. Sci. Math. Nat. Ser. B Sci. Nat. I:69-84.
3 Canter-Lund, H. & Lund, J. W. G. 1995. Freshwater algae: their microscopic world explored. Biopress Ltd., Bristol, 360 pp.
4 Cavicchioli, R. 2016. On the concept of a psychrophile. ISME J. 10:793-795.   DOI
5 Cevik, F., Whitton, B. A. & Ozturk, O. 2007. A new genus record for the freshwater algal flora of Turkey. Turk. J. Bot. 31:149-152.
6 Fukushima, H. 1962. Preliminary report on the life history of Hydrurus foetidus. Acta Phytotax. Geobot. 20:290-295 (in Japanese, with English summary).
7 Geitler, L. 1927. Uber Vegetationsfarbungen in Bachen. Biologia Generalis. Internationale Zeitschrift fur die allgemeinen Fragen der Lebensforschung. Band III. Emil Hain & Co., Wien und Leipzig and The John Hopkins Press, Baltimore, MD, pp. 791-814.
8 Gontcharov, A. A. 1996. The algal flora of the Primorsky Region, Russian Far East. Hydrobiologia 336:93-97.   DOI
9 Hara, Y. & Shitara, T. 2009. A newly recognized higher taxon of chrysophycean algae: 114. Phycologia 48:40.
10 Hirano, M. 1969. Freshwater algae from Rangtang Himal, Nepal Himalaya. Contrib. Biol. Lab. Kyoto Univ. 22:1-42.
11 Hoffman, L. R., Vesk, M. & Pickett-Heaps, J. D. 1986. The cytology and ultrastructure of zoospores of Hydrurus foetidus (Chrysophyceae). Nord. J. Bot. 6:105-122.   DOI
12 Kann, E. 1978. Systematik und Okologie der Algen der österreichischer Bergbache. Arch. Hydrobiol. Suppl. 53:405-643.
13 Kawecka, B. 1989. Sessile algal communities in a mountain stream in conditions of light gradation during its flow through a cave (West Tatra, Poland). Acta Hydrobiol. 31:35-42.
14 Kawecka, B. 1993. Ecological characteristics of sessile algal communities in streams flowing from the Tatra Mountains in the area of Zakopane (Southern Poland) with special considerations of their requirements with regard to nutrients. Acta Hydrobiol. 35:295-306.
15 Kawecka, B. 2003a. Effect of different light conditions on cyanobacteria and algal communities in Tatra Mts stream (Poland). Oceanol. Hydrobiol. Stud. 32:3-13.
16 Kawecka, B. 2003b. Response to drying of cyanobacteria and algae communities in Tatra Mts stream (Poland). Oceanol. Hydrobiol. Stud. 32:27-38.
17 Koletic, N., Alegro, A., Segota, V., Vukovic, N., Rimac, A. & Vilovic, T. 2017. New sites of rare cold-water golden algae Hydrurus foetidus (Villars) Trevisan (Ochrophyta: Chrysophyceae) in Croatia. Nat. Croat. 26:305-311.   DOI
18 Klaveness, D. 2017. Hydrurus foetidus (Chrysophyceae): an inland macroalga with potential. J. Appl. Phycol. 29:1485-1491.   DOI
19 Klaveness, D., Brate, J., Patil, V., Shalchian-Tabrizi, K., Kluge, R., Gislerod, H. R. & Jakobsen, K. S. 2011. The 18S and 28S rDNA identity and phylogeny of the common lotic chrysophyte Hydrurus foetidus. Eur. J. Phycol. 46:282-291.   DOI
20 Kobayasi, H. 1961. Chlorophyll content in sessile algal community of Japanese mountain river. Bot. Mag. Tokyo 74:228-235.   DOI
21 Rostafinski, J. 1882. Hydrurus i jego pokrewienstwo. Monografia. Rozprawy i Sprawozdania z Posiedzen Wydzialu Matematyczno-Przyrodniezego Akademii Umiejetnosci. Vol. 10. Nakl. Akademii, Krakow, pp. 60-86 (separatum pp. 1-29, RESUME. Hydrurus und seine Verwandschaft. Eine Monographie, separatum pp. 31-34).
22 Niedrist, G. H. & Fureder, L. 2018. When the going gets tough, the tough get going: the enigma of survival strategies in harsh glacial stream environments. Freshw. Biol. 63:1260-1272.   DOI
23 Parker, B. C., Samsel, G. L. Jr. & Prescott, G. W. 1973. Comparison of microhabitats of macroscopic subalpine stream algae. Am. Midl. Nat. 90:143-153.   DOI
24 Raven, J. A. 1992. How benthic macroalgae cope with flowing freshwater: resource acquisition and retention. J. Phycol. 28:133-146.   DOI
25 Remias, D., Jost, S., Boenigk, J., Wastian, J. & Lutz, C. 2013. Hydrurus-related golden algae (Chrysophyceae) cause yellow snow in polar summer snowfields. Phycol. Res. 61:277-285.   DOI
26 Robinson, C. T., Kawecka, B., Fureder, L. & Peter, A. 2010. Biodiversity of flora and fauna in alpine waters. In Bundi, U. (Ed.) The Handbook of Environmental Chemistry. Vol. 6. Alpine Waters. Springer-Verlag, Berlin, pp. 193-223.
27 Rott, E., Cantonati, M., Fureder, L. & Pfister, P. 2006a. Benthic algae in high altitude streams of the Alps: a neglected component of the aquatic biota. Hydrobiologia 562:195-216.   DOI
28 Rott, E., Fureder, L., Schutz, C., Sonntag, B. & Wille, A. 2006b. A conceptual model for niche differentiation of biota within an extreme stream microhabitat. Verh. Int. Verein Limnol. 29:2321-2323.
29 Lindstrom, E. -A., Johansen, S. W. & Saloranta, T. 2004. Periphyton in running waters: long-term studies of natural variation. Hydrobiologia 521:63-86.   DOI
30 Rott, E. & Schneider, S. C. 2014. A comparison of ecological optima of soft-bodied benthic algae in Norwegian and Austrian rivers and consequences for river monitoring in Europe. Sci. Total Environ. 475:180-186.   DOI
31 Rott, E., Walser, L. & Kegele, M. 2000. Ecophysiological aspects of macroalgal seasonality in a gravel stream in the Alps (River Isar, Austria). Verh. Int. Verein Limnol. 27:1622-1625.
32 Uehlinger, U., Robinson, C. T., Hieber, M. & Zah, R. 2010. The physico-chemical habitat template for periphyton in alpine glacial streams under a changing climate. Hydrobiologia 657:107-121.   DOI
33 Rott, E. & Wehr, J. D. 2016. The spatio-temporal development of macroalgae in rivers. In Necchi, O. Jr. (Ed.) River Algae. Springer International Publishing, Basel, pp. 159-195.
34 Subba Raju, N. & Suxena, M. R. 1979. Algae and Testaceae of the Cho Oyu (Himalayas) expedition-II: Cyanophyta, Chlorophyta, Euglenophyta, Chrysophyta and Testacea. Hydrobiologia 67:141-160.   DOI
35 Traaen, T. S. & Lindstrom, E. -A. 1983. Influence of current velocity on periphyton distribution. In Wetzel, R. G. (Ed.) Periphyton of Freshwater Ecosystems. Developments in Hydrobiology. Vol. 17. Springer, Dordrecht, pp. 97-99.
36 Villanueva, V. D., Buria, L. & Albarino, R. 2010. Primary consumers and resources: annual variation in two contrasting reaches of a Patagonian mountain stream. Ann. Limnol. Int. J. Limnol. 46:21-28.   DOI
37 Ward, J. V. 1994. Ecology of alpine streams. Freshw. Biol. 32:277-294.   DOI
38 Wehr, J. D., Sheath, R. G. & Kociolek, J. P. 2015. Freshwater algae of North America: ecology and classification. 2nd ed. Academic Press/Elsevier, San Diego, CA, 1050 pp.