Copepoda
Kopecky J., Omesova M. & Sukop I. 1999
: Copepoda. In: Opravilova V., Vanhara J. & Sukop I. (eds): Aquatic Invertebrates of the Palava Biosphere Reserve of UNESCO. Folia Fac. Sci. Nat. Uni. Masaryk. Brun., Biol., 101: 145-154.
Explanations:
| 1 - locality (e.g., PL: 9.2) | 4 - distribution (e.g., CEU) |
| 2 - source (e.g., (32)) | 5 - time of occurrence (e.g., III-V) |
| 3 - habitat type (e.g., 3.1.2.2.1) | 6 - conservation category (e.g., EN) |
_______________________________________________________________________________________________
LIST OF SPECIES
Czech Republic |
Palava Biosphere Reserve |
|
Number of species |
82 |
42 |
CALANOIDA
DIAPTOMIDAE
Arctodiaptomus (Rhabdodiaptomus) bacillifer (Koelbel, 1885): LR: 8.1 (1,5), LR: 8.1; 8.11; 8.16 (16), LR: 8.3-10 (17), LR: 8.1; 8.11-12 (31), LR: 8.1; 8.11 (34), 4.1.2.2.1, CEU.
Diaptomus (Diaptomus) castor (Jurine, 1820): LR: 8.11-12; 8.16 (5), LN: 16.11, MD: 19.1; 19.3-4; 19.7 (34), MD: 19.3 (36), 3.1.2.1, 4.1.2.2.1, EUR.
Eudiaptomus gracilis (Sars, 1863): common, e.g.: LR: 8.11-12; 8.16-17 (1), LR: 8.11-12; 8.14; 8.16 (5), LR: 8.11-12; 8.16 (6), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), LR: 8.1 (19, 20), LR: 8.1 (31), MJ: 4.5 (32), LR: 8.17-18 (33), LN: 16.4 (35), CA: 18.1; 18.7, LR: 8.6; 8.12, MD: 19.6, MJ: 4.9-11, PO: 15.7 (36), 4.1.2.1.2, 4.1.2.2.1, EUR.
E. graciloides (Lilljeborg, 1888): LR: 8.12 (5), PD (27), LR: 8.18 (33), KJ: 3.3 (35), 4.1.2.2.1, SBB.
E. vulgaris (Schmeil, 1898): LR: 8.1; 8.11-12; 8.14; 8.16 (5), LR: 8.11-12; 8.15-16 (7), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), PD (27), BL: 13.2 (30), LR: 8.11 (31), KA: 12.11-13, KJ: 3.3, LN: 16.11, LR: 8.15, LU: 11.6, MD: 19.4, MJ: 4.10, PO: 15.8 (33), LN: 16.4 (35), JE: 5.1 (35,36), LR: 8.6-7, LU: 11.1, RA: 17.5 (36), 3.1.2.1.3, 4.1.2.1.2, 4.1.2.2.1, EUA.
Hemidiaptomus (Gigantodiaptomus) amblyodon (Marenzeller, 1873): LE, PR (1), BR (3), KA (4, 13), PD (8, 10-12, 24), PL: 9.5 (25), LE (28, 29), PL: 9.1, PT: 7.10, RA: 17.3 (34), PO: 15.2 (36), 3.1.2.2.1, EUS, III-V.
*H. (G.) hungaricus Kiefer, 1932: PL: 9.2, PO: 15.2 (34), 3.1.2.2.1, CEU, III-V, EN.
Mixodiaptomus kupelwieseri (Brehm, 1907): PD (27), LE (29), CA: 18.2, JE: 5.2, KA: 12.1; 12.5; 12.25, KJ: 3.3, LN: 16.11, LU: 11.6; 11.10; 11.23; 11.25, MD: 19.2-4; 19.7, PL: 9.1; 9.4-6, PN: 14.4-5, PO: 15.2, PT: 7.4-5; 7.9, RA: 17.1 (34), CA: 18.2, KA: 12.3, PL: 9.2; 9.6, PN: 14.5; 14.7; 14.9, PO: 15.4; 15.9, RA: 17.3; 17.11 (36), 3.1.2.1.3, 3.1.2.2.1, SBM.
CYCLOPOIDA
CYCLOPIDAE
CYCLOPINAE
Acanthocyclops robustus (Sars, 1863): common, e.g. LR: 8.1; 8.11-12; 8.16 (31), MJ: 4.5 (32), JE: 5.5, PT: 7.1 (35), BL: 13.1, JE: 5.3, KA: 12.6, LU: 11.9-10; 11.12, MD: 19.2-3, MJ: 4.5; 4.11-12, NL: 6.3, PO: 15.13, RA: 17.5 (36), 3.1.2.1.3, 4.1.1.1, EUR.
A. vernalis (Fischer, 1853): LR: 8.1 (5), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), LR: 8.1; 8.11-12; 8.16 (18), PD (27), BL: 13.2 (30), LR: 8.17-18 (33), JE: 5.3, KJ: 3.5, MR: 2.1-2 (35), CA: 18.7, JE: 5.5; 5.8, KA: 12.13, KJ: 3.2; 3.4, LR: 8.11-13; 8.16, MD: 19.2, NL: 6.4; 6.9; 6.16, PO: 15.7; 15.13, RA: 17.7 (36), 4.1.2.2.1, HOL.
Cryptocyclops bicolor (Sars, 1863): LR: 8.1; 8.11 (16), LR: 8.5; 8.9 (17), CA: 18.1, LA, LN: 16.8, MD: 19.5 (35), 3.1.2.1.3, 4.1.2.2.1, HOL.
Cyclops furcifer Claus, 1857: KJ: 3.3 (34), JE: 5.5, LN: 16.7 (35), LU: 11.11, PL: 9.2; 9.3, PN: 14.5 (36), 3.1.2.2.1, PAL.
C. insignis Claus, 1857: LR: 8.11; 8.16 (5), LN: 16.7 (35), CA: 18.2, PN: 14.5 (36), CEU.
C. strenuus Fischer, 1851: common, e.g. LE (2), LR: 8.1; 8.11-12; 8.14; 8.16 (1,5), LR: 8.1 (6), BR (13), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), PD (27), BL: 13.2 (30), MJ: 4.5 (32), LR: 8.17 (33), JE: 5.5, KJ: 3.1-5, NL: 6.6; 6.15-6 (35), CA: 18.1-2, CE: 10.6, JE: 5.1-2; 5.5, KA: 12.3; 12.20, KJ: 3.2, LU: 11.2; 11.6-10; 11.14; 11.22, MD: 19.2-3, NL: 6.2; 6.4-6; 6.17-18, PL: 9.2-4; 9.6, PN: 14.1; 14.5; 14.7; 14.9, PO: 15.1-2; 15.4-6; 15.8-9; 15.15, PT: 7.2, RA: 17.2-3; 17.11 (36), 3.1.2.1, 3.1.2.2.1, 4.1.2.2.1, PAL.
C. vicinus Uljanin, 1875: common, e.g.: LR: 8.1; 8.17 (1), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), PD (25), LR: 8.1; 8.11-12; 8.16 (31), MJ: 4.5 (32), LR: 8.17-18 (33), CA: 18.1, KJ: 3.3-4, LA, MR: 2.2, LN: 16.4, NL: 6.6; 6.15, PT: 7.1 (35), CA: 18.6-7, CE: 10.6, KA: 12.20, KJ: 3.2; 3.4, LR: 8.6-7, LU: 11.6, MD: 19.7, MJ: 4.5; 4.8; 4.12, PL: 9.6, PO: 15.1; 15.3-4; 15.7-15.10; 15.13; 15.15, PT: 7.2, RA: 17.7; 17.11 (36), 3.1.2.1, 3.1.2.2.1, 4.1.1.1, 4.1.2.1.2, 4.1.2.2.1, HOL.
Diacyclops bicuspidatus (Claus, 1857): PD (27), PL: 9.2 (33,34), JE: 5.2, KA: 12.3; 12.20, LR: 8.14, LU: 11.8; 11.10; 11.14, MD: 19.2, MJ: 4.5, NL: 6.9-10; 6.16; 6.18, PL: 9.4, PO: 15.2-3; 15.7 (36), 3.1.2.2.1, 4.1.2.1.3, HOL.
D. bisetosus (Rehberg, 1880): LR: 8.5 (17), PD (27), KA: 12.14, LN: 16.11, LU: 11.9; 11.13 (34), PO: 15.2 (36), 3.1.2.1.3, 3.1.2.2.1, PAL.
D. languidus (Sars, 1863): PD (27), EUR.
D. nanus (Sars, 1863): LR: 8.1; 8.12; 8.16 (5), LR: 8.1 (1,6), 4.1.2.2.1, EUR.
Megacyclops gigas (Claus, 1857): LR: 8.16 (16), PD (27), LU: 11.6 (34,36), RA: 17.3 (36), 3.1.2.2.1, EUR.
M. latipes (Lowndes, 1927): BR (13), KA: 12.11; 12.12 (34), LN: 16.7 (35), LU: 11.11; 11.14, MD: 19.7, MJ: 4.12, PL: 9.6 (36), EUR.
M. viridis (Jurine, 1820): common, e.g.: LR: 8.1; 8.11-12; 8.14; 8.16 (5), BR (13), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), LR: 8.1 (19, 20), PD (27), BL: 13.2 (30), LR: 8.11 (31), MJ: 4.5 (32), LR: 8.18 (33), JE: 5.3; 5.5, KJ: 3.1; 3.3, NL: 6.6, PT: 7.1 (35), CA: 18.2, CE: 10.5, JE: 5.1-2, LN: 16.12, LR: 8.6-7; 8.14, LU: 11.12; 11.14, MD: 19.3, MJ: 4.5, NL: 6.10, PL: 9.2; 9.6, PN: 14.1; 14.5, PO: 15.3; 15.9, RA: 17.2-3,17.11 (36), 3.1.2.1, 3.1.2.2.1, 4.1.2.2.1, COS (except Australia).
Mesocyclops leuckarti (Claus, 1857): LR: 8.12; 8.14; 8.16 (5), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3; 8.6; 8.8-9 (17), MJ: 4.5 (26), LR: 8.16 (31), KA: 12.12-13, LU: 11.12, NL: 6.16 (34), JE: 5.1, LN: 16.8, MR: 2.2 (35), CA: 18.1-2; 18.7, JE: 5.1; 5.3, MD: 19.2-3; 19.6, MJ: 4.5; 4.10, NL: 6.10; 6.18, PO: 15.8-9, RA: 17.8 (36), 3.1.2.1, 4.1.2.2.1, EUR.
Metacyclops gracilis (Lilljeborg, 1853): LR: 8.1; 8.11 (16), LR: 8.5; 8.9-10 (17), PD (27), 4.1.2.2.1, PAL.
Microcyclops varicans (Sars, 1863): PD (27), LN: 16.8 (35), PO: 15.2 (36), COS.
Thermocyclops crassus (Fischer, 1853): common, e.g.: LR: 8.11; 8.16 (5), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), LR: 8.1; 8.11-12; 8.16 (18), MJ: 4.5 (32), LR: 8.17-18 (33), CA: 18.6-7, JE: 5.3; 5.8, KJ: 3.4, LN: 16.12, MD: 19.6-7, MJ: 4.4; 4.9-11 (36), 3.1.2.1, 4.1.2.2.1, COS (except Australia).
T. dybowskii (Lande, 1890): MJ: 4.5 (26), PD (27), NL: 6.6 (34), PAL.
T. oithonoides (Sars, 1863): LR: 8.11; 8.12; 8.16 (5), LR: 8.16 (16), JE: 5.3, MJ: 4.5 (35), JE: 5.5 (36), 3.1.2.1, 4.1.2.2.1, PAL.
EUCYCLOPINAE
Ectocyclops phaleratus (Koch, 1838): LE (1), LR: 8.1; 8.11-12; 8.14; 8.16 (5), LR: 8.1; 8.11-12; 8.16 (16), MD: 19.5 (35), JE: 5.8 (36), 4.1.2.2.1, COS.
Eucyclops (Eucyclops). macruroides (Lilljeborg, 1901): MJ: 4.5 (26), JE: 5.5, LN: 16.4, MD: 19.5 (35), MD: 19.2, MJ: 4.10-12, NL: 6.7; 6.17, RA: 17.7 (36), 4.1.2.1.2, PAL.
E. (E.) macrurus (Sars, 1863): LR: 8.1; 8.11; 8.12; 8.14; 8.16 (1), LR: 8.11; 8.12; 8.16 (5), 4.1.2.2.1, HOL.
E. (E.) serrulatus (Fischer, 1851): common, e.g.: LR: 8.1; 8.11-12; 8.14; 8.16 (5), LR: 8.1; 8.11-12; 8.16 (16), LR: 8.3-10 (17), LR: 8.1 (19, 20), PD (27), BL: 13.2 (30), MJ: 4.5 (32), LR: 8.18 (33), CA: 18.1, JE: 5.5, KJ: 3.1-4, LN: 16.8, MD: 19.4; 19.5, NL: 6.6, PT: 7.1 (35), BL: 13.1, CA: 18.1-2; 18.6, CE: 10.6, JE: 5.1; 5.3; 5.8, KA: 12.6; 12.13, KJ: 3.2; 3.4, LN: 16.9-10; 16.12, LR: 8.6-7; 8.14; 8.18, LU: 11.1-2; 11.12; 11.22, MD: 19.2-3, MJ: 4.5; 4.12, NJ: 6.10; 6.16-17, PN: 14.1; 14.7, PO: 15.1-2, RA: 17.2-5; 17.7-8 (36), 3.1.2.2.1, 3.1.2.1, 4.1.2.2.1, COS.
E. (E.) speratus (Lilljeborg, 1901): CA: 18.1, DY: 20.1, 20.5, LU: 11.9, HOL.
Macrocyclops albidus (Jurine, 1820): LR: 8.11-12; 8.14; 8.16 (1,5), LR: 8.1; 8.11-12; 8.16 (16), PD (27), BL: 13.2 (30), MJ: 4.5 (32), LR: 8.18 (33), JE: 5.5, LN: 16.4; 16.8, MD: 19.4-5, NL: 6.7 (35), BL: 13.1, CA: 18.6, JE: 5.8, KJ: 3.2; 3.4, LN: 16.10, LR: 8.18, LU: 11.1-2, MD: 19.2; 19.6, MJ: 4.11, NL: 6.10; 6.18, PO: 15.9, RA: 17.4 (36), 3.1.2.1, 4.1.2.2.1, COS (except Australia).
M. distinctus (Richard, 1887): PD (27), KA: 12.27, KJ: 3.1; 3.4, LN: 16.8; 16.11, LU: 11.9; 11.12 (34), NL: 6.18 (36), 3.1.2.1.3, EUR.
M. fuscus (Jurine, 1820): LR: 8.11-12; 8.14 (5), LR: 8.1; 8.11-12; 8.16 (16), KJ: 3.1; 3.4, LN: 16.8, LU: 11.10, PA: 12.12; 12.25 (34), LN: 16.4; 16.7 (35), JE: 5.8, LN: 16.12, NL: 6.17, PO: 15.9, RA: 17.4 (36), 3.1.2.1.3, 4.1.2.2.1, PAL.
Paracyclops affinis (Sars, 1863): LR: 8.11-12; 8.14 (5), LR: 8.1; 8.11-12 (16), 4.1.2.2.1, HOL.
P. fimbriatus (Fischer, 1853): LE (1), LR: 8.1; 8.11-12; 8.14; 8.16 (5), LR: 8.1; 8.11-12; 8.16 (16), LN: 16.9 (36), 4.1.2.2.1, COS.
P. poppei (Rehberg, 1880): LN: 16.9 (36), CEU.
HARPACTICOIDA
CANTHOCAMPTIDAE
Attheyella (Brehmiella) trispinosa (Brady, 1880): PD (15, 27), 3.1.2.2.1, EUR.
Bryocamptus (Bryocamptus) minutus (Claus, 1863): PD, LA (15), PD (27), 3.1.2.2.1, HOL.
Canthocamptus staphylinus (Jurine, 1820): LR: 8.1; 8.11-12; 8.14; 8.16 (1), LR: 8.1; 8.12; 8.14; 8.16 (5), LA, PD (15), PD (27), 3.1.2.2.1, 4.1.2.2.1, PAL.
_______________________________________________________________________________________________
SOURCE (publications, collections, unpublished data)
1. ZIMMERMANN F., 1923: Die Fauna und Flora der Grenzteiche bei Eisgrub. II. Copepoda et Phyllopoda. Verh. naturf. Ver. Brunn, 58 (1920–1921): 45-57.
2. SPANDL H., 1926: Die Tierwelt vorubergehender Gewasser Mitteleuropas. Arch. Hydrobiol., 16: 74-132.
3. VALOUSEK B., 1926a: Nekolik dulezitych lokalit hydrobiologickych z inundacniho pasma dolni Dyje. /Several important hydrobiological localities from floodplains of the Dyje River/. Cas. vlastived. spolku mus. v Olomouci, 37: 11-16. (In Czech).
4. VALOUSEK B., 1926b: Lokality zabronozky snezni (Chirocephalus grubii Dyb.) na Breclavsku. /Localities of Chirocephalus grubii Dyb. from Breclav environs/. Priroda, 19: 11. (In Czech).
5. BAYER E. & BAJKOV A., 1929: Hydrobiologicka studia rybniku lednickych. I. Vyzkum heloplanktonu a jeho pomeru quantitativnich. /Hydrobiological study of the Lednicke rybniky Fishponds. I. Study of heloplankton and its quantity/. Sbor. Vys. sk. zemed., Brno, (D), 14: 1-165. (In Czech).
6. SOUDEK S., 1929: Prispevek k vyzkumu zooplanktonu rybniku lednickych Contribution to the knowledge of the zooplankton of the ponds of Lednice (Eisgrub). Sbor. Masaryk. Akad. Prace, 3: 38-79. (In Czech, Engl. & Germ. summ.).
7. ZAPLETALEK J., 1932: Vodni kvet a plankton na Lednicku v letech 1930 a 1931. /Water-bloom and plankton in the Lednice environment in the years 1930-1931/. Zpravy komise na prir. vyzkum Moravy a Slezska, odd. bot., 10 (14): 1-22. (In Czech).
8. KAPLER O., 1938: K nove situaci na jizni Morave. Al nova situacio sur suda Moravio. Priroda, 31: 269-270. (In Czech, Span. summ.).
9. TEYROVSKY V., 1937: Faunisticke poznamky, 1-3. Faunistische Bemerkungen, 1-3. Sbor. Klubu prir., Brno, 20: 38-40. (In Czech, Germ. summ.).
10. KAPLER O., 1940a: Nova zkusenost s jarni vodni faunou. Eine neue Erfahrung mit der Fruhjahrswasserfauna. Priroda, 33: 147-148. (In Czech, Germ. summ.).
11. KAPLER O., 1940b: Ke zprave: Nova zkusenost s jarni vodni faunou. /To the report: Eine neue Erfahrung mit der Fruhjahrswasserfauna/. Priroda, 33: 217-218. (In Czech).
12. VALOUSEK B., 1951: Periodicka snezni tun jako biotop. /Temporary snow pool as habitat/. Acta Acad. Sc. Nat. Moravo-Silesiacae, Brno, 23: 411-436. (In Czech, Latin. summ.).
13. KUBICEK F., 1959: K vyskytu Daphnia atkinsoni a Mixodiaptomus kupelwieseri (Brehm) na Morave. Zum Vorkommen von Daphnia atkinsoni und Mixodiaptomus kupelwieseri (Brehm) in Mahren. Acta soc. zool. Bohemoslov, 23: 74-79. (In Czech, Russ. & Germ. summ.).
14. HACHLER E.M., 1962: Pruvodce po statni prirodni rezervaci Lednicke rybniky. /A guide through the Lednicke rybniky State Nature Reserve/. Okr. vlastived. muz. Mikulov, Odb. skol. a kult. ONV Breclav and Okr. archiv Mikulov. Vol. 27, pp. 1-29. (In Czech).
15. STERBA O., 1964: Plazivky (Copepoda Harpacticoidea) Moravy a Slovenska. Harpacticiden (Crustacea - Copepoda) von Mahren und der Slowakei. 1. Teil. Acta Univ. Pal. Olom., Fac. Rer. Nat, 16: 203-321. (In Czech, Russ. & Germ. summ.).
16. LOSOS B. & HETESA J., 1971: Hydrobiological studies on the Lednicke rybniky ponds. Acta Sc. Nat. Brno, 5 (10): 1-54.
17. LOSOS B. & HETESA J., 1972: Plankton pludkovych rybniku. Plankton of fry ponds. Folia Monografia. Vol. 1. Univ. J.E. Purkyne, Brno, pp. 1-96+17 figs. (In Czech, Russ. & Engl. summ.).
18. LOSOS B. & HETESA J., 1973: Plankton of the Lednice fishponds. In: KVET J. (ed.), Littoral of the Nesyt Fishpond. Studie CSAV, Academia, Praha, 15: 67-69.
19. SLADECEK V., 1973: A swarm of the zooplankton in the Nesyt fishpond. In: KVET J. (ed.), Littoral of the Nesyt fishpond. Studie CSAV, Academia, Praha, pp. 71-72.
20. MARVAN P. & SLADECEK V., 1974: Zdroje znecisteni rybniku Nesyt. /Sources of pollution of Nesyt Fishpond/. In: Nove poznatky z technicke hydrobiologie III. /New knowledge from technical hydrobiology III/. Bul. metod. stred. vodohosp. lab., Praha, pp. 100-110. (In Czech).
21. ADAMEK Z. & SUKOP I., 1992: Invertebrate communities of former Southern-Moravian floodplains (Czechoslovakia) and impacts of regulation. Regul. Rivers: Res. Mgmt, 7: 181-192.
22. FAINA R. & PRIKRYL I., 1994: Vyvoj hospodareni na ceskych rybnicich a jeho odraz ve strukture zooplanktonu. /Development of fishery management of Bohemian ponds and its reflection in the structure of zooplankton/. In: 10th Limnol. Conf., Oct. 17-21, 1994, Slov. limnol. spol. & Cs. limnol. spol., Stara Tura, Slov. limnol. spol., Bratislava, 7 pp. (unnumbered proceeding complement, in Czech).
23. PRIKRYL I., 1996: Vyvoj hospodareni na ceskych rybnicich a jeho odraz ve strukture zooplanktonu jako mozneho kriteria biologicke hodnoty rybniku. /Historical development of Bohemian fishpond management and its reflection in zooplankton structure as a possible criterion of biological value of ponds/. In: FLAJSHANS M. (ed.), Sbor. ved. praci k 75. vyr. zalozeni VURH. Vyzk. ust. rybarsky a hybrobiol., JU, Vodňany, pp. 151-164. (In Czech).
24. HETESA J. & SUKOP I., 1997: Lednicke rybniky po triceti peti letech. / Lednicke rybniky Fishponds after 35 years/. In: LUKAVSKY J. & SVEHLOVA D. (eds), Limnologicky vyzkum pro rozumne hospodareni s vodou. /Limnological research for suitable water management/. 11th Limnol. Conf., Sept. 29 - Oct. 3, 1997, Doubi u Trebone, Cs. limnol. spol. & Slov. limnol. spol., Trebon, pp. 38-41. (In Czech).
25. SLANINOVA-POKORNA I., 1997: Periodicke tunky v okoli Podivina. /Temporary pools in the vicinity of Podivin/. Podivin: vlastived. sbor, Mest. urad, Podivin, pp. 45-48. (In Czech).
26. CRHA J., 1955: Prispevek k poznani potravy ryb v mrtvem rameni reky Dyje. /Contribution to the knowledge of the food of fishes in dead arm of the Dyje River/. Diploma Thesis, Faculty of Science, Masaryk University Brno, 60 pp. (In Czech).
27. ZACHAROVA M., 1959: Perloocky a klanonozci inundacnich tuni mezi Podivinem a Lednici na jizni Morave. / Cladocerans and copepods in the inundation pools between Podivin and Lednice, southern Moravia /. Diploma Thesis, Faculty of Science, Masaryk University Brno, 75 pp. (In Czech).
28. KUCZMAN O., 1984: Periodicke tune jizni Moravy, minulost a soucasny stav nekterych lokalit. /Temporary pools in southern Moravia: the past and present status of some localities/. Diploma Thesis, Faculty of Science, Masaryk University Brno, 60 pp. (In Czech).
29. SUKOP I., 1993: Vliv vodohospodarskych uprav na jizni Morave na rozvoj vodnich biocenoz bezobratlych zivocichu v inundacnim uzemi reky Dyje. /Influence of water management modifications in southern Moravia on the development of invertebrate biocoenoses in the floodplain of the Dyje River/. Habilitation Thesis, Faculty of Science, Masaryk University Brno, 92pp. (In Czech).
30. GROSSMANNOVA J., 1994: Sezonni zmeny zooplanktonu a litoralniho benthosu rybnika u Breclavi. /Seasonal changes in the zooplankton and littoral benthos of a pond near Breclav/. Diploma Thesis, Faculty of Science, Masaryk University Brno, 60 pp. (In Czech).
31. FAINA R. & PRIKRYL I., 1994: Studie rybarskeho hospodareni - cast 2. Dilci cast planu pece pro narodni prirodni rezervaci Lednicke rybniky /Study of fishery management - part 2. Scheme of care for State Nature Reserve Lednicke rybniky Fishponds /. Vyzk. ust. rybarsky a hydrobiologicky, Vodnany, 20 pp. (In Czech).
32. SPURNY V., 1997: Dynamika rozvoje zooplanktonu a zoobentosu Mahenova jezera. /Dynamics of zooplankton and zoobenthos in Lake Mahenovo jezero /. Diploma Thesis, Faculty of Agronomy, Mendel University of Agriculture and Forestry Brno, 74 pp. (In Czech).
33. FLIDR J., 1998: Dynamika rozvoje zooplanktonu Zameckeho a Podzameckeho rybniku. /Dynamics of zooplankton in Zamecky and Podzamecky Ponds/. Diploma Thesis, Faculty of Agronomy, Mendel University of Agriculture and Forestry, Brno, 52 pp. (In Czech).
34. Coll. I. SUKOP.
35. Coll. Moravian Museum Brno, Hydrobiol. lab., O. SKACELOVA leg., J. KOPECKY det.
36. Coll. M. OMESOVA.
_______________________________________________________________________________________________
Jiri Kopecky (Department of Zoology and Ecology, Faculty of Science, Masaryk University, Kotlarska 2, 611 37 Brno, Czech Republic. E-mail: jirkakop@sci.muni.cz)
Marie Omesova (Department of Zoology and Ecology, Faculty of Science, Masaryk University, Kotlarska 2, 611 37 Brno, Czech Republic. E-mail: jirkakop@sci.muni.cz)
Ivo Sukop (Department of Fishery and Hydrobiology, Mendel University of Agriculture and Forestry, Brno, Nejdecka 600, 691 44 Lednice na Morave, Czech Republic)