<p>Electronic supplementary material</p><p>Supplementary tables</p><p>Table S1 Köppen-Geiger climate classes and types (after Peel et al. 2007) for the water bodies for which growth in roach was reviewed.</p><p>Class Type Description B (Arid) BSh1 Steppe – hot BSk1 Steppe – cold BWk2 Desert – cold C (Temperate) Cfa3 Without dry season – Hot summer Cfb3 Without dry season – Warm summer Csa4 Dry summer – Hot summer Csb4 Dry summer – Warm summer D (Cold) Dfa Without dry season – Hot summer Dfb Without dry season – Warm summer Dfc Without dry season – Cold summer 1 Grouped into BS ‘type II’ for VBGF fitting sample size requirements. 2 Referred to as BW ‘type II’ for consistency with BS. 3 Grouped into Cf ‘type II’ for VBGF fitting sample size requirements. 4 Grouped into Cs ‘type II’ for VBGF fitting sample size requirements.</p><p>1 Table S2 Water bodies for which data on mean length-at-age (LAA) for roach were reviewed. For each water body (arranged from higher to lower latitude), the latitude (Lat),</p><p> longitude (Lon), altitude (Alt: m a.s.l.), country, species status, Köppen-Geiger climate class and types (after Peel et al. 2007: Table S1), estimated mean annual air (Ta) and water</p><p> temperature Tw (equation 2) (both in °C), and corresponding growth degree days (GDD: equation 7) are provided. Mapping of water bodies in Fig. 1.</p><p>Water body</p><p>Name ID Alt Country Class Type Type II Ta Tw GDD</p><p>Umba River W214 14 Russia D Dfc – 0.9 4.3 – Lake Pyaozero W114 107 Russia D Dfc – 0.7 4.1 311 Pechora River W155 6 Russia D Dfc – −3.8 0.1 – Khutorskoye (Solovetsky Islands) W054 13 Russia D Dfc – 0.9 4.3 – Lake Lebyazh'ye W091 38 Russia D Dfc – 4.7 7.7 – Lake Stor-Finnsjön W126 741 Sweden D Dfc – 1.6 4.9 296 Lake Pyhäjärvi W115 360 Finland D Dfc – −1.0 2.5 167 Lake Kyvann W089 186 Norway D Dfc – 4.4 7.4 682 Lake Royk-Navolokskoye W116 141 Russia D Dfc – 1.4 4.7 – Lake Haarajärvi W080 120 Finland D Dfc – 2.6 5.8 449 Lake Suoyarvi W127 123 Russia D Dfc – 2.4 5.6 – Lake Majajärvi W096 154 Finland D Dfc – 3.3 6.4 – Lake Syamozero W129 103 Russia D Dfc – 2.5 5.7 – Lake Haukijärvi W082 160 Finland D Dfb – 3.4 6.5 443 Lake Hokajärvi W085 140 Finland D Dfc – 3.5 6.6 455 Lake Vesijärvi W130 264 Finland D Dfc – 3.9 6.9 486 Vytegorsk Reservoir W223 74 Russia D Dfc – 2.6 5.8 – Paimionjoki River W154 47 Finland D Dfb – 5.3 8.2 551 Lake Hiidenvesi W083 72 Finland D Dfb – 4.6 7.6 – Sheksna Reservoir W196 111 Russia D Dfc – 2.7 5.9 – Lake Glaningen W079 157 Sweden D Dfc – 4.0 7.1 379 Lake Beloye W067 362 Russia D Dfc – 3.3 6.4 – Lake Norra Hörken W105 255 Sweden D Dfc – 3.4 6.5 321 Lake Södra Hörken W123 777 Sweden D Dfc – 3.4 6.5 318 Lake Halmsjön W081 35 Sweden D Dfb – 6.7 9.5 730</p><p>2 Lake Kloten W088 280 Sweden D Dfc – 3.9 7.0 343 Lake Øyeren W108 101 Norway D Dfb – 5.2 8.2 676 Tvärminne Archipelago W210 0 Finland D Dfb – 5.9 8.8 572 Lake Erken W076 90 Sweden D Dfb – 6.9 9.6 750 Fosterudbekken stream W035 34 Norway C Cfb Cf 5.7 8.6 743 Vollebekken stream W221 434 Norway C Cfb Cf 5.3 8.2 549 River Glomma (Langnes) W175 24 Norway D Dfb – 6.4 9.2 1067 River Glomma (Glengshølen) W174 24 Norway D Dfb – 6.4 9.2 1067 Lake Mälaren W097 0.5 Sweden D Dfb – 6.8 9.6 745 Lake Sæbyvannet W117 47 Norway C Cfb Cf 5.6 8.5 870 River Glomma (Vestvannet) W176 24 Norway D Dfb – 8.6 11.2 842 Lake Hjälmaren W084 24 Sweden D Dfb – 6.9 9.7 643 Kama Reservoir W052 104 Russia D Dfb – 2.4 5.6 – Lake Morotskoye W099 108 Russia D Dfb – 2.8 5.9 – Lake Peipus W110 56 Russia D Dfb – 5.1 8.0 – Rybinsk Reservoir W189 485 Russia D Dfb – 2.8 6.0 – Lake Ilmen W086 −16 Russia D Dfb – 10.4 12.8 – Lake Pskov W113 28 Estonia D Dfb – 5.2 8.1 – Lake Nero W103 90 Russia D Dfb – 3.7 6.7 – Votkinskoye Reservoir W222 84 Russia D Dfb – 2.5 5.7 – Uglich Reservoir W212 109 Russia D Dfb – 5.3 8.2 – Lake Seliger W121 406 Russia D Dfb – 4.2 7.3 – Lake Pleshcheyevo W112 804 Russia D Dfb – 5.1 8.1 – Ivankovskoye Reservoir W050 160 Russia D Dfb – 5.0 7.9 – Cheboksary Reservoir W013 60 Russia D Dfb – 4.2 7.2 – Lake Zhizhitskoye W134 162 Russia D Dfb – 4.5 7.5 – Loch Lomond W138 11 UK C Cfb Cf 8.8 11.3 474 Uchinsk Reservoir W211 314 Russia D Dfb – 5.0 7.9 – Humbie Reservoir W047 181 UK C Cfb Cf 7.8 10.5 350 Lake Sövdeborgssjön W125 46 Sweden C Cfb Cf 8.1 10.8 701 Nizhnekamsk Reservoir W145 119 Russia D Dfb – 3.8 6.9 – Lake Biserovo W069 121 Russia D Dfb – 3.5 6.6 –</p><p>3 Skirvite Stream W198 −2 Russia C Cfb Cf 6.8 9.6 715 Lake Myatyalis W101 0 Lithuania C Cfb Cf 6.8 9.6 713 Lake Myadelka W100 146 Belarus D Dfb – 2.5 5.7 – Kurshskiy Zaliv Lagoon W060 2 Lithuania C Cfb Cf 7.2 9.9 792 Großer Plöner See W043 18 Germany C Cfb Cf 8.7 11.3 742 Gorjkovsk Reservoir W039 90 Russia D Dfb – 1.7 5.0 – Irtysh River W049 90 Russia D Dfb – 1.7 5.0 – Lake Narach W102 161 Belarus D Dfb – 5.5 8.4 640 Lake Vyshtenetskoye W132 2 Russia C Cfb Cf 7.3 10.0 – Lake Łebsko W090 −4 Poland C Cfb Cf 7.9 10.5 741 Lake Gardno W077 −2 Poland C Cfb Cf 7.9 10.5 747 Lake Dusya W075 102 Lithuania D Dfb – 6.6 9.4 755 Vistula Lagoon W217 12 Poland C Cfb Cf 7.2 10.0 – Lake Kamyshovoye W087 62 Russia D Dfb – 6.7 9.5 753 Lake Węgorzewskie W133 134 Poland D Dfb – 7.3 10.0 845 Trammer See W208 18 Germany C Cfb Cf 8.7 11.3 742 Bay of Greifswald W004 0 Germany C Cfb Cf 8.4 11.0 725 Plußsee W156 30 Germany C Cfb Cf 8.6 11.2 730 Bay of Greifswald (Dänische Wiek) W005 10 Germany C Cfb Cf 8.5 11.1 806 River Ryck W183 10 Germany C Cfb Cf 8.5 11.1 806 Bay of Pomerania W006 90 Poland C Cfb Cf 8.2 10.8 836 Szczecin Lagoon W205 0 Poland C Cfb Cf 8.5 11.1 816 Leeds and Liverpool Canal W135 27 UK C Cfb Cf 9.6 12.1 644 Kuybyshev Reservoir W061 135 Russia D Dfb – 4.3 7.3 – Lake Charzykowy W071 125 Poland C Cfb Cf 7.1 9.8 620 River Birket W166 8 UK C Cfb Cf 10.1 12.6 744 Rostherne Mere W188 46 UK C Cfb Cf 10.0 12.5 726 Tatton Mere W206 46 UK C Cfb Cf 9.7 12.2 671 Lake Dąbie W073 132 Poland C Cfb Cf 7.7 10.3 712 Regalica River W165 0 Poland C Cfb Cf 8.5 11.1 881 Odra River Mouth (Międzyodrze) W149 224 Poland C Cfb Cf 7.6 10.3 906 Lake Miedwie W098 9 Poland C Cfb Cf 8.4 11.0 872</p><p>4 Ellesmere W031 8 UK C Cfb Cf 10.1 12.6 744 Groote Brekken Lake W044 −1 Netherlands C Cfb Cf 9.2 11.7 669 Grantham Canal W040 64 UK C Cfb Cf 9.5 12.0 673 Alderfen Broad Lake W001 9 UK C Cfb Cf 9.8 12.3 711 Warta River W224 32 Poland C Cfb Cf 9.5 12.0 1076 Grimnitzsee W042 60 Germany C Cfb Cf 8.6 11.2 891 Straussee W203 65 Germany C Cfb Cf 8.9 11.4 937 Heegermeer W046 −2 Netherlands D Dfb – 9.2 11.7 670 River Nene (Yarwell) W182 42 UK C Cfb Cf 10.0 12.4 755 Willow Brook (Apethorpe) W226 49 UK C Cfb Cf 9.9 12.4 746 Willow Brook (Woodnewton) W229 36 UK C Cfb Cf 10.0 12.5 762 Tjeukemeer W207 -2 Netherlands D Dfb – 9.2 11.7 670 Willow Brook (Elton) W227 13 UK C Cfb Cf 10.1 12.5 738 Willow Brook (Fotheringhay) W228 25 UK C Cfb Cf 10.1 12.5 775 Saratov Reservoir W193 69 Russia D Dfb – 4.8 7.8 – IJsselmeer W048 0 Netherlands C Cfb Cf 9.7 12.1 751 Sakrower See W192 33 Germany C Cfb Cf 9.3 11.8 1029 Norfolk Broads W146 9 UK C Cfb Cf 9.8 12.3 720 River Wensum W187 6 UK C Cfb Cf 9.9 12.3 724 Müggelsee W142 30 Germany C Cfb Cf 9.1 11.6 972 River Nene (Wollaston) W181 88 UK C Cfb Cf 9.1 11.6 598 River Nene (Cogenhoe) W179 164 UK C Cfb Cf 9.7 12.2 707 River Nene (Kislingbury) W180 69 UK C Cfb Cf 9.8 12.3 722 Madingley (upper pond) W140 38 UK C Cfb Cf 10.1 12.6 819 Old West River W150 8 UK C Cfb Cf 9.8 12.3 750 River Granta W177 3 UK C Cfb Cf 10.6 13.0 901 River Funshion W173 22 Ireland C Cfb Cf 10.3 12.7 633 River Lugg W178 75 UK C Cfb Cf 10.3 12.7 779 Rye Meads Lagoons W190 75 UK C Cfb Cf 9.9 12.4 774 Bolshoy Irgiz River W009 12 Russia D Dfa – 6.8 9.5 – River Cam (Barrington) W167 22 UK C Cfb Cf 10.3 12.7 838 Darent (gravel pit lake) W021 0 UK C Cfb Cf 12.0 14.2 1130</p><p>5 Lake Oltush W107 165 Belarus D Dfb – 7.3 10.0 911 Sutton-at-Hone (gravel pit lake) W204 42 UK C Cfb Cf 11.7 14.0 1073 Lake Charkhal W070 23 Russia D Dfa – 4.8 7.8 – Lake Svitiaz W128 157 Ukraine D Dfb – 7.4 10.2 – River Thames (Reading) W185 51 UK C Cfb Cf 10.1 12.5 782 Lake Libiszowskie W092 184 Poland C Cfb Cf 8.4 11.0 978 Maly Uzen River W141 -10 Kazakhstan D Dfa – 6.9 9.7 – Ponds at Valkenswaard W158 54 Netherlands C Cfb Cf 7.8 10.5 916 Yateley (gravel pit lake) W230 69 UK C Cfb Cf 10.7 13.1 922 Chernobyl Nuclear Power Station cooling pond W014 126 Ukraine D Dfb – 6.8 9.6 – Pripyat River W160 128 Belarus D Dfb – 7.4 10.1 – Bridgewater Canal W010 19 UK C Cfb Cf 10.1 12.5 731 Grey Mist Mere W041 36 UK C Cfb Cf 10.1 12.5 732 River Stour W184 23 UK C Cfb Cf 9.8 12.3 685 River Frome W172 0 UK C Cfb Cf 10.2 12.6 754 Exeter Canal W033 38 UK C Cfb Cf 10.5 12.9 779 Kiev Reservoir W055 98 Ukraine D Dfb – 8.2 10.8 – River Culm W169 15 UK C Cfb Cf 10.6 13.0 802 River Creedy W168 10 UK C Cfb Cf 10.6 13.0 796 Przeczyce Reservoir W162 290 Poland C Cfb Cf 7.8 10.4 862 Hamr pond W045 450 Czech Republic C Cfb Cf 6.9 9.7 720 River Exe W171 45 UK C Cfb Cf 10.6 13.0 799 River Desna W170 104 Ukraine D Dfb – 6.9 9.7 – Klíčava Reservoir W056 488 Czech Republic C Cfb Cf 8.8 11.4 974 Orava Reservoir W151 596 Slovakia C Cfb Cf 6.1 8.9 512 Slapton Ley Lake W199 126 UK C Cfb Cf 10.4 12.8 688 Kozłowa Góra Reservoir W057 293 Poland C Cfb Cf 8.3 10.9 946 Elbe region W030 724 Czech Republic C Cfb Cf 9.3 11.8 1061 Caspian Sea W012 −12 Russia D Dfa – 9.9 12.3 – Berounka River W008 191 Czech Republic C Cfb Cf 9.1 11.7 1027 Goczałkowickie Reservoir W037 251 Poland D Dfb – 8.9 11.5 994 Lake Lukom W094 93 Ukraine D Dfb – 7.9 10.5 –</p><p>6 Tresna Reservoir W209 356 Poland D Dfb – 5.5 8.4 418 River Uil W186 −10 Kazakhstan D Dfa – 7.5 10.2 – Orlík Reservoir W152 424 Czech Republic C Cfb Cf 8.8 11.4 924 Slapy Reservoir W200 272 Czech Republic C Cfb Cf 8.6 11.2 947 Solina Reservoir W201 415 Poland D Dfb – 8.4 11.0 975 Kremenchuk Reservoir W058 154 Ukraine D Dfb – 7.8 10.5 – Volgograd Reservoir W220 23 Russia D Dfa – 4.8 7.8 – Pond Velký Tisý W157 438 Czech Republic C Cfb Cf 9.6 12.0 894 Mušov Reservoir W143 164 Czech Republic C Cfb Cf 9.4 11.9 1122 Lipno Reservoir W137 725 Czech Republic C Cfb Cf 6.1 9.0 575 Shetirgiz River W197 473 Kazakhstan B BSk BS 3.0 6.2 – Dnieper River (Dnipropetrovsk) W024 140 Ukraine D Dfb – 8.6 11.2 – Danube River (Vlčie hrdlo) W019 380 Czech Republic C Cfb Cf 8.4 11.0 727 Danube River (Rusovce) W017 134 Slovakia C Cfb Cf 10.7 13.1 1471 Danube River (Vojka arm complex) W020 120 Russia C Cfb Cf 10.8 13.2 1492 Lake Biel W068 858 Switzerland C Cfb Cf 9.6 12.0 1035 Dneprovsk Reservoir W022 77 Ukraine D Dfa – 9.0 11.5 – Kakhovka Reservoir W051 30 Ukraine D Dfa – 9.9 12.3 – Ulungur Lake W213 956 China B BWk BW 6.0 8.8 1536 Sagyz River W191 −25 Kazakhstan B BSk BS 9.5 12.0 – Canal de la Thielle W011 422 Switzerland C Cfb Cf 10.1 12.5 975 Lac du Loclat W064 432 Switzerland C Cfb Cf 8.9 11.5 861 Lac des Quatre-Cantons W063 437 Switzerland C Cfb Cf 8.9 11.5 861 Volga River Delta W219 -24 Russia B BSk BS 9.9 12.3 – Lake Neuchâtel W104 429 Switzerland C Cfb Cf 10.1 12.5 975 Lake Sarnen W119 469 Switzerland D Dfc – 9.6 12.1 998 Lake Balaton W065 100 Hungary C Cfb Cf 10.8 13.2 1517 Red Lake (Lacu Roșu) W164 972 Romania D Dfb – 4.0 7.1 394 Emba River W032 −29 Kazakhstan B BWk BW 9.6 12.0 – Proletarskoye Reservoir W161 111 Russia D Dfa – 4.7 7.7 – Lake Geneva W078 372 France C Cfb Cf 10.6 13.0 1181 Lake Maggiore W095 194 Italy D Dfc – 12.5 14.7 1603</p><p>7 Dnistrovskyi Reservoir W026 20 Ukraine C Cfa Cf 10.3 12.7 – Lake Balkhash W066 338 Kazakhstan B BSk BS 5.8 8.7 – Kanevsk Reservoir W053 13 Russia C Cfa Cf 11.4 13.7 – Sea of Azov W194 0 Ukraine C Cfa Cf 11.5 13.8 – Lake d'Aydat W074 853 France C Cfb Cf 7.8 10.5 580 Lake Lugano W093 271 Switzerland C Cfb Cf 12.0 14.2 1492 Puiu Lake W163 40 Romania C Cfa Cf 11.5 13.8 1577 Lake Somova W124 0 Romania C Cfa Cf 10.8 13.1 – Crapina-Jijila pools (Danube Delta) W015 0 Romania C Cfa Cf 10.9 13.3 1677 Filipoin channel (Danube Delta) W034 0 Romania C Cfa Cf 10.9 13.3 1677 Belaya River W007 48 Russia C Cfa Cf 11.6 13.9 – Lake Sayram W120 2072 China D Dfc – -0.5 3.1 249 Danube River (Tutrakan) W018 76 Bulgaria C Cfa Cf 11.5 13.8 1763 Lac de Pareloup W062 1602 France C Cfb Cf 9.9 12.4 935 Danube River (Lom) W016 62 Bulgaria C Cfb Cf 11.6 13.9 1755 Lake of Sainte-Croix W106 477 France C Csa Cs 10.2 12.7 1499 Lake Cherven W072 477 Bulgaria C Cfa Cf 9.8 12.3 1262 Lake Paliastomi W109 0 Georgia C Cfa Cf 14.3 16.3 – Zhrebchevo Reservoir W231 291 Bulgaria C Cfa Cf 10.7 13.0 1486 Lake Piediluco W111 369 Italy C Csa Cs 14.7 16.7 1910 Ovcharitsa Reservoir W153 297 Bulgaria C Cfa Cf 13.3 15.4 1988 Batak Reservoir W003 2208 Bulgaria D Dfb – 5.9 8.8 656 Dospat Reservoir W029 1514 Bulgaria C Cfb Cf 6.2 9.1 400 G. Dimitrov Reservoir W036 324 Bulgaria C Csa Cs 11.9 14.2 1666 Lake Sapanca W118 30 Turkey C Csb Cs 14.2 16.2 1993 Lake Volvi W131 37 Greece C Cfa Cf 15.6 17.4 2194 Porsuk Reservoir W159 886 Turkey C Csb Cs 10.4 12.8 1295 Anzali wetland W002 −29 Iran C Csa Cs 16.1 17.9 – Gomishan wetland W038 −23 Iran B BSh BS 16.0 17.8 2753 Seyhan Reservoir W195 67 Turkey C Csa Cs 18.8 20.3 – South Caspian Sea W202 −19 Iran B BSk BS 16.0 17.8 – Dnieper River W023 – Ukraine – – – – – –</p><p>8 Dnieper River (upper) W025 – Ukraine – – – – – – Don River W027 – Ukraine – – – – – – Don River (upper) W028 – Ukraine – – – – – – Kuban River W059 – Russia – – – – – – Lake Shivchey W122 – Russia – – – – – – Lena River W136 – Russia – – – – – – Lower Don River W139 – Ukraine – – – – – – Neman River W144 – Belarus – – – – – – North Caspian Sea W147 – Russia – – – – – – Ob River W148 – Russia – – – – – – Various lakes (Lithuania) W215 – Lithuania – – – – – – Vilyuy River W216 – Russia – – – – – – Volga River W218 – Russia – – – – – – Western Dvina River W225 – Russia – – – – – –</p><p>9 Table S3 Roach populations for which mean LAA data (fork length: FL, mm) and/or von Bertalanffy growth function (VBGF) parameters were reviewed. For each population, identified by water body (codes in Table S2) and, whenever applicable, sampling period/location/author/reference study/morphotype, the type of length (L) used (FL; SL = standard</p><p> length; TL = total length; ? = not reported and taken as FL by ‘judicious choice’), the VBGF fit (F = Fitted; O = Original) and corresponding parameters (FLinf, K, t0), the growth index (GI: Hickley and Dexter 1979) and indication of the semi-quantitative classification into ‘low’, ‘average’ and ‘high’ growth (Z-RP: after Zivkov and Raikova-Petrova 2001) are provided. Secondary source studies are indicated as fide. A dash ‘–’ indicates: for Fit, a population for which fitting was not possible due to 6 or less mean LAA data points; for the VBGF parameters, their absence due to either insufficient number of LAA data points or ‘linear’ growth; for Age, lack of data from source study (with number of dashes equal to age classes in corresponding population).</p><p>VBGF Age (years) 1 Population L Fit K Z-RP 2 3 4 5 6 7 8 10 11 13 Source 8</p><p>W0011 FL – – – 113 138 157 168 200 Cryer et al. (1986) W0021,2 TL O 0.20 – 105 123 140 156 175 191 219 Naddafi et al. (2005) W003 (1966–1976) SL O 0.10 L 115 128 130 143 162 166 177 215 234 250 Zivkov and Raikova-Petrova (2001) W003 (1977–1992) SL O 0.22 A 147 180 219 255 279 Zivkov and Raikova-Petrova (2001) W004 SL F 0.12 – 96 136 170 203 227 250 270 fide Więsky and Załachowsky (2000) W005 SL F 0.18 – 98 138 170 197 219 242 256 fide Więsky and Załachowsky (2000) W006 (a) SL F 0.13 – 103 136 172 199 226 250 263 fide Więsky and Załachowsky (2000) W006 (b) SL O 0.14 – 91 119 149 170 196 222 247 Więsky and Załachowsky (2000) W007 (middle course) SL – – – 127 142 162 192 Kas'yanov et al. (1995) W007 (mouth) SL – – – 172 183 220 Kas'yanov et al. (1995) W008 SL O 0.17 – 89 130 165 194 219 240 257 Hanel (1991) W009 SL – – – 106 143 187 210 260 Kas'yanov et al. (1995) W010 FL – – – 117 137 157 188 196 244 Hartley (1947) W011 TL F 0.09 – 62 76 103 143 161 173 180 Zaugg (1987) W0122 TL – – – 74 79 88 fide Kas'yanov et al. (1995) W013 SL – – – 109 128 146 174 Kas'yanov et al. (1995) W014 SL – – – 230 266 295 318 343 Kas'yanov et al. (1995) W015 SL – – A 135 170 fide Zivkov and Raikova-Petrova (2001) W016 SL – – A 134 167 200 fide Zivkov and Raikova-Petrova (2001) W017 SL F 0.12 – 85 112 134 153 168 187 202 fide Chitravadivelu (1974)</p><p>10 W018 SL – – A 142 185 fide Zivkov and Raikova-Petrova (2001) W019 SL F 0.23 – 82 103 121 141 152 154 fide Chitravadivelu (1974) W020 SL F 0.06 L 74 97 120 139 158 175 207 Chitravadivelu (1974) W0214 FL – – – 88 135 175 223 248 Gee (1978) W022 SL – – L 135 144 181 194 fide Zivkov and Raikova-Petrova (2001) W023 (a) SL F 0.11 L 83 114 144 170 196 220 240 265 fide Zivkov and Raikova-Petrova (2001) W023 (b) SL F 0.07 L 89 123 151 177 203 237 259 fide Zivkov and Raikova-Petrova (2001) W024 SL – – – 190 205 222 236 fide Kas'yanov et al. (1995) W025 SL – – – 108 120 147 162 195 211 Kas'yanov et al. (1995) W026 SL – – – 211 226 Kas'yanov et al. (1995) W027 SL – – A 129 172 204 fide Zivkov and Raikova-Petrova (2001) W028 SL – – – 134 144 173 184 Kas'yanov et al. (1995) W029 SL O 0.31 A 136 183 212 234 238 271 Zivkov and Raikova-Petrova (2001) W030 (1951–1956) SL – – – 91 120 151 173 184 Frank (1962) W030 (Malá and Velká) SL F 0.39 – 114 184 218 238 257 260 Frank (1962) W030 (Poltruba – 1955) SL F 0.12 L 84 101 121 134 153 168 192 fide Zivkov and Raikova-Petrova (2001) W030 (Poltruba – 1956) SL – – – 83 113 139 184 Frank (1962) W0314 FL F 0.31 – 120 160 220 240 260 270 280 fide Goldspink (1978) W032 SL – – – 124 154 179 Kas'yanov et al. (1995) W033 FL F 0.13 – 92 120 145 186 206 222 241 266 fide Cowx (1988) W034 SL – – A 100 139 179 fide Zivkov and Raikova-Petrova (2001) W0351,2 ? F 0.08 – 127 149 165 175 187 213 215 238 Vøllestad and L’Abée-Lund (1990) W036 (1964–1968) SL – – H 152 199 265 fide Zivkov and Raikova-Petrova (2001) W036 (1973–1977) SL – – H 156 210 257 296 fide Zivkov and Raikova-Petrova (2001) W0374 TL F 0.25 – 64 96 120 144 168 176 184 201 fide Epler et al. (2005) W038 TL O 0.21 – 116 139 161 182 194 Naddafi et al. (2005) W039 SL – – L 62 99 134 175 190 195 fide Zivkov and Raikova-Petrova (2001) W0403 FL F 0.09 – 61 104 124 142 157 178 Hartley (1947) W041 (1969) FL F 0.69 – 93 101 106 109 114 113 117 121 119 fide Linfield (1979) W041 (1971) FL F 0.49 – 89 110 152 155 157 147 154 167 161 Linfield (1979) W042 FL F 0.11 – 79 102 114 124 145 155 fide Hartley (1947) W043 SL F 0.18 A 121 159 200 222 264 285 305 325 328 fide Zivkov and Raikova-Petrova (2001)</p><p>11 W044 TL F 0.12 – 58 92 102 112 118 132 159 Goldspink (1979) W0451 SL – – H 161 232 280 301 fide Zivkov and Raikova-Petrova (2001) W0461 TL – – – 79 95 110 118 126 129 Goldspink (1979) W0471 FL F 0.27 – 60 93 120 140 152 164 169 fide Goldspink (1978) W048 TL F 0.44 – 142 156 166 178 173 181 Goldspink (1979) W049 SL – – – 196 207 Kas'yanov et al. (1995) W050 SL O 0.12 L 107 130 151 172 197 226 251 320 Baranova (1984) W051 (a) SL F 0.23 – 250 304 343 385 416 455 Spivak et al. (1979) W051 (b) SL – – H 180 248 295 341 fide Zivkov and Raikova-Petrova (2001) W052 SL – – – 128 138 151 170 182 192 fide Kas'yanov et al. (1995) W053 SL F 0.15 L 107 146 184 217 249 272 295 321 332 fide Zivkov and Raikova-Petrova (2001) W054 SL – – – 151 173 206 fide Kas'yanov et al. (1995) W055 SL – – – 106 238 260 285 Kas'yanov et al. (1995) W056 (a) SL F 0.22 – 66 144 189 220 243 258 274 Holčík (1967a) W056 (b) SL F 0.35 L 139 181 200 221 238 249 259 274 fide Zivkov and Raikova-Petrova (2001) W0574 TL F 0.18 – 96 124 136 148 160 180 188 fide Epler et al. (2005) W058 (a) SL F 0.12 A 158 185 206 230 242 267 fide Zivkov and Raikova-Petrova (2001) W058 (b) SL F 0.08 A 138 161 202 214 238 263 288 340 fide Zivkov and Raikova-Petrova (2001) W0593 SL – – A 139 179 214 fide Zivkov and Raikova-Petrova (2001) W060 SL – – – 190 204 222 238 Kas'yanov et al. (1995) W061 (a) SL F 0.08 L 78 105 131 157 181 206 232 271 283 fide Zivkov and Raikova-Petrova (2001) W061 (b) SL L – L 47 78 105 131 157 181 206 252 271 fide Zivkov and Raikova-Petrova (2001) W061 (c) SL L – – 106 134 149 180 229 273 305 332 fide Kas'yanov et al. (1995) W062 (after refilling) TL – – – 82 103 123 134 Angèlibert et al. (1999) W062 (before draining) TL – – – 51 70 89 107 Angèlibert et al. (1999) W063 TL F 0.26 – 134 175 184 201 245 257 257 261 Zaugg (1987) W064 TL – – – 87 102 132 Zaugg (1987) W065 SL O 0.16 – 135 174 205 234 257 272 279 Specziár et al. (1997) W066 SL – – – 274 287 294 309 fide Kas'yanov et al. (1995) W067 (a) SL F 0.10 L 74 105 135 153 179 198 fide Zivkov and Raikova-Petrova (2001) W067 (b) SL – – – 122 141 204 Kas'yanov et al. (1995) W068 (a) TL – – – 164 176 192 201 Büsser and Schumi (1987)</p><p>12 W068 (b) TL F 0.22 – 119 164 186 225 248 253 268 265 Zaugg (1987) W069 SL F 0.18 L 97 128 149 170 187 205 fide Zivkov and Raikova-Petrova (2001) W0703 SL – – – 205 232 245 263 Kas'yanov et al. (1995) W071 SL F 0.11 A 93 143 183 233 259 282 306 fide Zivkov and Raikova-Petrova (2001) W0721 SL F 0.10 A 98 136 167 196 222 252 279 324 fide Zivkov and Raikova-Petrova (2001) W073 (a) SL F 0.08 – 91 121 149 173 197 223 250 fide Więsky and Załachowsky (2000) W073 (b) TL O 0.09 – 61 81 99 115 132 147 164 187 199 217 Załachowski and Krzykawska (1995) W073 (c) SL O 0.16 – 89 121 151 173 188 204 221 Więsky and Załachowsky (2000) W073 (Kwiecińska 1984) SL F 0.11 – 73 109 142 167 182 210 233 Więsky and Załachowsky (2000) W074 TL O 0.16 – 72 92 109 124 136 147 Jamet and Desmolles (1994) W0754 SL – – – 147 206 233 Kas'yanov et al. (1995) W076 (location 1)4 TL F 0.13 – 80 100 112 128 132 148 156 Putkis and Batsianiou (2005) W076 (location 2)3,4 TL – – – 84 96 116 132 Putkis and Batsianiou (2005) W076 (location 3)4 TL F 0.51 – 96 108 116 128 140 152 164 Putkis and Batsianiou (2005) W076 (location 4)3,4 TL F 0.11 – 72 88 108 120 136 148 152 Putkis and Batsianiou (2005) W076 (location 5)3,4 TL F 0.29 – 84 92 108 128 136 148 168 Putkis and Batsianiou (2005) W076 (location 6) TL F 0.82 – 108 112 124 132 140 148 Putkis and Batsianiou (2005) W077 SL F 0.15 – 162 196 235 275 323 369 374 Hornatkiewicz-Żbik (2003) W0781 TL F 0.22 – 104 137 166 192 195 221 229 Ponton and Gerdeaux (1987) W0793 TL F 0.19 – 99 140 164 206 229 248 264 282 292 Kempe (1962) W0801 TL F 0.13 – 44 56 68 76 88 92 104 Estlander et al. (2010) W0813 TL F 0.07 – 75 87 116 137 150 161 171 170 207 Kempe (1962) W0824 TL F 0.10 – 56 68 76 84 92 108 116 Estlander et al. (2010) W083 (deep basin)4 TL F 0.26 – 60 84 100 104 116 120 128 Vinni et al. (2000) W083 (shallow basins) TL F 0.26 – 64 84 96 100 112 116 120 Vinni et al. (2000) W0843 FL F 0.11 – 79 107 130 150 168 183 203 fide Hartley (1947) W085 TL F 0.18 – 56 72 80 88 100 108 116 Estlander et al. (2010) W086 (a) SL F 0.12 L 66 85 115 143 173 184 218 243 247 fide Zivkov and Raikova-Petrova (2001) W086 (b) SL – – L 104 138 165 185 206 fide Zivkov and Raikova-Petrova (2001) W087 SL – – – 170 180 194 245 Kas'yanov et al. (1995) W088 FL F 0.10 – 81 109 132 147 170 191 201 fide Hartley (1947) W089 ? F 0.30 – 138 161 176 177 153 Vøllestad and L’Abée-Lund (1990)</p><p>13 W090 SL F 0.14 – 149 180 230 259 293 359 380 418 Hornatkiewicz-Żbik (2003) W091 SL F 0.10 – 152 169 181 192 204 253 Kas'yanov et al. (1995) W0924 TL F 0.07 – 60 72 88 112 128 136 fide Epler et al. (2005) W093 TL – – – 143 183 223 240 Guthruf (2002) W0944 SL – – L 146 154 173 205 fide Zivkov and Raikova-Petrova (2001) W095 TL O 0.29 – Volta and Jepsen (2008) W096 TL F 0.13 – 56 68 76 84 88 100 108 Estlander et al. (2010) W097 TL F 0.21 – 61 89 112 129 143 153 160 171 176 188 Kempe (1962) W0984 FL F 0.07 – 97 119 147 183 201 229 fide Hartley (1947) W099 SL F 0.07 – 84 91 106 113 121 166 Kas'yanov et al. (1995) W100 SL F 0.16 A 138 175 194 232 263 295 329 fide Zivkov and Raikova-Petrova (2001) W101 SL – – – 177 194 222 237 Kas'yanov et al. (1995) W102 SL – – A 128 161 209 241 265 fide Zivkov and Raikova-Petrova (2001) W103 SL F 0.07 – 93 122 150 177 207 236 275 fide Kas'yanov et al. (1995) W104 TL F 0.21 – 134 168 185 212 232 237 249 273 277 287 Zaugg (1987) W105 TL F 0.17 – 112 116 124 128 136 147 164 Kempe (1962) W106 TL F 0.29 – 93 126 153 171 185 196 fide Angèlibert et al. (1999) W107 SL – – L 116 142 153 166 198 fide Zivkov and Raikova-Petrova (2001) W108 TL F 0.11 – 72 96 112 120 136 140 144 164 180 201 fide Naddafi et al. (2005) W1094 SL – – – 149 166 182 fide Kas'yanov et al. (1995) W110 (a) SL F 0.08 L 76 118 145 166 182 194 210 234 253 305 fide Zivkov and Raikova-Petrova (2001) W110 (b) SL F 0.15 – 173 185 195 220 238 267 276 319 364 Mitrofanova (1976) W111 TL O 0.24 – Giannetto et al. (2014) W112 (1930) SL F 0.14 – 99 138 175 203 228 249 fide Kas'yanov and Izyumov (1995) W112 (1960) SL F 0.12 – 92 120 147 173 191 206 226 fide Kas'yanov and Izyumov (1995) W112 (1979–1980) SL F 0.10 – 78 101 122 138 156 173 183 Kas'yanov and Izyumov (1995) W112 (1980) SL – – – 115 144 157 168 190 fide Kas'yanov et al. (1995) W112 (1991a) SL F 0.09 – 106 130 151 170 189 205 219 257 Kas'yanov and Izyumov (1995) W112 (1991b) SL F 0.09 – 105 132 157 180 199 215 249 Kas'yanov et al. (1995) W1134 SL L – L 70 106 138 160 177 194 213 266 291 323 fide Zivkov and Raikova-Petrova (2001) W1144 SL – – – 130 141 149 173 Kas'yanov et al. (1995) W115 (Finnish zone) TL F 0.17 – 136 148 164 172 188 196 209 Auvinen (1987)</p><p>14 W115 (Soviet zone)5 TL F 0.18 – 172 172 184 192 209 213 209 Auvinen (1987) W116 SL – – – 109 139 152 170 217 Kas'yanov et al. (1995) W1171 ? F 0.24 – 138 144 153 176 184 195 190 Vøllestad and L’Abée-Lund (1990) W118 TL O 0.15 – 88 131 149 160 173 193 218 Okgerman et al. (2009) W119 TL O 0.15 – 84 114 145 170 188 203 217 245 246 Müller and Meng (1986) W120 SL O 0.27 – 140 178 189 222 235 Wenlin et al. (1992) W121 (a) SL – – – 92 105 130 144 158 172 fide Kas'yanov et al. (1995) W121 (b) SL O 0.09 L 76 121 143 161 179 200 214 242 Baranova (1984) W1221 SL – – – 162 176 195 217 Kas'yanov et al. (1995) W123 (fast) TL – – – 90 128 155 190 209 Kempe (1962) W123 (immigrants) TL L – – 55 74 91 104 161 213 226 276 289 Kempe (1962) W123 (slow) TL F 0.34 – 50 83 98 105 109 119 122 Kempe (1962) W124 SL – – – 129 131 202 fide Chitravadivelu (1974) W125 TL – – – 64 88 101 125 fide Angèlibert et al. (1999) W126 (type A) TL F 0.08 – 47 65 81 96 107 125 Kempe (1962) W126 (type B) TL F 0.16 – 67 98 124 144 160 176 189 211 Kempe (1962) W126 (type C)3 TL F 0.21 – 72 94 110 124 133 152 Kempe (1962) W127 SL – – – 109 138 153 170 217 Kas'yanov et al. (1995) W1283 SL F 0.08 L 82 119 147 175 205 240 267 fide Zivkov and Raikova-Petrova (2001) W1291 SL – – – 157 170 194 199 213 fide Kas'yanov et al. (1995) W1301 TL F 0.29 – 76 100 120 128 140 148 152 Horppila (1994) W130 (Enonselkä Basin)4 TL F 0.33 – 79 98 108 119 124 128 132 Horppila (2000) W130 (Laitialanselkä Basin) TL F 0.33 – 77 99 113 124 130 136 140 Horppila (2000) W131 TL F 0.28 L 91 99 111 121 128 138 145 164 175 Papageorgiou (1979) W1323 SL F 0.08 – 194 203 217 228 263 336 fide Kas'yanov et al. (1995) W1334 TL F 0.11 – 56 68 80 96 112 120 128 fide Epler et al. (2005) W134 SL – – – 97 142 167 Kas'yanov et al. (1995) W135 FL F 0.06 – 50 70 80 95 110 130 150 180 fide Goldspink (1978) W136 (a) SL F 0.13 L 46 92 104 138 150 173 184 219 fide Zivkov and Raikova-Petrova (2001) W136 (b) SL – – – 167 183 fide Kas'yanov et al. (1995) W137 SL F 0.14 A 96 136 175 206 235 263 274 fide Zivkov and Raikova-Petrova (2001) W138 FL F 0.17 – 66 104 143 176 199 217 228 fide Goldspink (1978)</p><p>15 W139 SL – – A 71 137 185 fide Zivkov and Raikova-Petrova (2001) W140 FL – – – 101 142 180 Hartley (1947) W141 SL F 0.12 – 119 137 164 204 223 235 275 Kas'yanov et al. (1995) W142 FL F 0.14 – 84 104 122 137 147 168 fide Hartley (1947) W143 SL – – L 75 111 145 180 199 fide Zivkov and Raikova-Petrova (2001) W1442 SL L – A 79 118 153 182 211 234 251 294 328 fide Zivkov and Raikova-Petrova (2001) W145 SL F 0.12 – 119 149 172 185 198 218 257 Kas'yanov et al. (1995) W146 FL F 0.09 – 91 118 127 135 152 172 198 Hartley (1947) W147 (a)3,6 SL – – – 206 244 272 283 fide Kas'yanov et al. (1995) W147 (b) SL – – – 184 204 229 253 279 fide Kas'yanov et al. (1995) W1483 SL – – – 184 202 222 Kas'yanov et al. (1995) W149 SL F 0.12 – 96 124 151 180 210 240 258 Więsky and Załachowsky (2000) W150 FL – – – 91 118 124 142 165 Hartley (1947) 3 W151 SL F 0.05 L 67 83 97 114 121 145 167 207 230 268 0 Holčík (1967b) 4 W152 SL F 0.08 L 79 109 143 177 199 222 244 fide Zivkov and Raikova-Petrova (2001) W153 (1976–1985) SL O 0.44 H 192 241 267 288 302 Zivkov and Raikova-Petrova (2001) W153 (1976–1989) SL – – H 197 243 272 288 302 Zivkov and Raikova-Petrova (2001) W153 (1986–1989) SL O 0.30 H 215 256 301 Zivkov and Raikova-Petrova (2001) W154 TL F 0.07 – 48 64 79 93 109 127 144 Kännö (1969) W155 (a) SL – – – 200 215 229 248 fide Kas'yanov et al. (1995) W155 (b) SL – – L 77 111 146 169 192 fide Zivkov and Raikova-Petrova (2001) W156 ? F 0.08 – 80 128 149 165 174 204 228 257 261 323 Arzbach (1997) W157 SL – – – 142 187 Frank (1962) W158 (1958) TL – – – 161 197 221 237 252 Hofstede (1974) W158 (1959) TL – – – 160 195 206 226 Hofstede (1974) W159 TL F 0.65 – 102 124 139 148 155 Başkurt et al. (unpublished) W160 SL F 0.11 L 100 126 159 181 199 229 259 fide Zivkov and Raikova-Petrova (2001) W161 SL – – – 196 211 228 fide Kas'yanov et al. (1995) W162 SL F 0.24 – 212 238 279 313 333 359 370 384 Skóra (1972) W163 (a)3 SL – – H 191 220 271 fide Zivkov and Raikova-Petrova (2001) W163 (b)3 SL – – H 217 237 fide Zivkov and Raikova-Petrova (2001)</p><p>16 W1642 SL – – A 141 192 221 fide Zivkov and Raikova-Petrova (2001) W165 (a) FL F 0.15 – 124 147 193 231 259 287 310 fide Hartley (1947) W165 (b) SL F 0.10 – 84 114 145 174 203 228 252 fide Więsky and Załachowsky (2000) W1661 FL F 0.41 – 81 94 109 125 130 136 152 fide Linfield (1979) W167 FL F 0.09 – 107 130 160 180 216 241 231 Hartley (1947) W1681 FL F 0.08 – 79 105 125 140 157 174 198 220 236 Cowx (1988) W169 FL F 0.22 – 88 126 158 176 192 202 206 226 237 Cowx (1988) W1701 SL – – – 130 141 161 Kas'yanov et al. (1995) W171 (Cowley Bridge)1 FL F 0.16 – 85 116 140 162 176 194 207 225 238 Cowx (1988) W171 (Fortesque)1 FL F 0.27 – 92 141 161 190 201 216 Cowx (1988) W171 (Trew's weir) FL F 0.09 – 97 123 146 168 184 200 214 239 246 Cowx (1988) W172 FL O 0.14 A 90 131 164 194 221 246 271 311 324 341 Mann (1973) W1733 FL F 0.20 – 150 166 183 188 199 240 278 fide Linfield (1979) W174 ? F 0.07 – 104 119 149 167 179 200 231 229 263 Vøllestad and L’Abée-Lund (1990) W1751 ? F 0.06 – 119 120 133 143 154 189 202 217 Vøllestad and L’Abée-Lund (1990) W176 ? F 0.15 – 149 155 172 198 209 224 222 253 Vøllestad and L’Abée-Lund (1990) W177 FL – – – 89 117 130 142 165 191 Hartley (1947) W178 FL F 0.28 – 159 169 177 215 228 235 258 263 225 Hellawell (1972) W179 (above sluice) ? O 0.15 – 105 140 165 180 190 205 210 Hart (1971) W179 (below sluice) ? O 0.27 – 105 130 150 180 190 210 220 240 Hart (1971) W180 ? O 0.16 – 95 130 150 160 180 205 215 245 220 Hart (1971) W181 ? O 0.15 – 150 180 190 220 230 245 250 265 Hart (1971) W182 ? – – – 125 150 175 190 Hart (1971) W183 SL – – – 104 136 154 187 fide Więsky and Załachowsky (2000) W1844 FL O 0.20 L 84 119 154 177 192 206 219 239 274 298 Mann (1973) W1851 FL F 0.18 – 79 95 113 129 138 147 156 176 Williams (1967) W1861 SL – – – 150 189 214 235 Kas'yanov et al. (1995) W187 FL F 0.09 – 75 125 160 195 225 255 280 Beardsley and Britton (2012) W188 (Banks 1970) FL F 0.30 – 104 165 198 228 246 267 270 Banks (1970) W188 (Mills 1969) FL F 0.17 – 100 160 189 209 232 264 294 fide Goldspink (1978) W189 SL L – L 75 103 137 167 198 229 257 302 324 fide Zivkov and Raikova-Petrova (2001) W189 (herbivors)3 SL – – – 143 167 184 204 217 fide Kas'yanov et al. (1995)</p><p>17 W189 (mollusk-eating form) SL F 0.07 – 96 122 151 175 199 219 238 274 Kas'yanov and Izyumov (1995) W189 (omnivors) SL F 0.12 – 99 132 161 187 218 235 272 fide Kas'yanov et al. (1995) W189 (phytophagous form) SL F 0.57 – 99 114 127 139 150 159 Kas'yanov and Izyumov (1995) W1903 FL – – – 145 190 240 260 275 White and Williams (1978) W191 SL – – – 188 204 222 Kas'yanov et al. (1995) W192 FL F 0.08 – 91 114 135 157 178 213 fide Hartley (1947) W193 (a) SL F 0.10 A 115 132 190 209 245 281 308 351 fide Zivkov and Raikova-Petrova (2001) W193 (b) SL L – A 109 126 174 198 227 262 308 346 392 fide Zivkov and Raikova-Petrova (2001) W193 (c) SL F 0.09 – 121 147 173 192 206 228 274 Kas'yanov et al. (1995) W194 SL F 0.13 A 139 179 214 245 273 310 fide Zivkov and Raikova-Petrova (2001) W195 FL – – – 174 193 220 Ergüden et al. (2008) W1961 SL F 0.13 – 107 138 156 168 187 207 Kas'yanov et al. (1995) W197 SL – – – 144 190 218 240 264 Kas'yanov et al. (1995) W1982 SL – – – 164 174 189 205 234 Kas'yanov et al. (1995) W199 FL O 0.73 – 107 142 167 199 214 226 238 Burrough and Kennedy (1979) W2003 SL F 0.14 L 77 112 149 179 203 217 236 fide Zivkov and Raikova-Petrova (2001) W201 TL – – – 127 160 171 179 188 201 Epler et al. (2005) W202 FL – – – 183 217 240 260 280 Sedaghat and Hoseini (2012) W203 FL – – – 41 58 71 81 fide Hartley (1947) W204 FL F 0.21 – 108 122 182 208 214 226 Gee (1978) W2051 SL O 0.24 – 98 136 169 195 212 222 229 Więsky and Załachowsky (2000) W205 (Hajdus 1985)1 SL F 0.14 – 101 135 168 202 230 247 263 Więsky and Załachowsky (2000) W205 (Novak 1980) SL F 0.17 – 114 151 182 199 210 222 237 Więsky and Załachowsky (2000) W205 (Stasia 1984) SL F 0.06 – 86 112 134 156 179 199 219 Więsky and Załachowsky (2000) W206 FL – – – 107 173 218 268 290 313 Goldspink (1978) W207 TL F 0.07 – 67 87 103 116 128 138 153 191 Goldspink (1979) W208 SL F 0.11 A 119 157 183 206 248 267 fide Zivkov and Raikova-Petrova (2001) W209 TL F 0.18 – 85 108 141 168 188 206 217 237 245 Epler et al. (2005) W210 (1975) TL F 0.05 – 53 74 92 108 129 146 163 192 Lappalainen et al. (2001) W210 (1997) TL F 0.05 – 55 70 84 98 112 126 139 162 Lappalainen et al. (2001) W211 (a) SL – – L 63 100 130 158 187 fide Zivkov and Raikova-Petrova (2001) W211 (b) SL – – A 103 153 202 243 280 fide Zivkov and Raikova-Petrova (2001)</p><p>18 W2123 SL O 0.11 L 103 130 159 179 202 215 242 288 326 340 Baranova (1984) W213 (1995–1996) TL F 0.37 – 124 192 225 249 269 281 289 fide Li et al. (2009) W213 (2007–2008) TL O 0.19 – 89 111 129 145 159 Li et al. (2009) W214 SL – – – 143 165 183 211 240 Kas'yanov et al. (1995) W2153 SL L – L 86 108 129 152 180 204 252 272 306 fide Zivkov and Raikova-Petrova (2001) W216 SL F 0.08 L 81 104 138 150 161 196 230 265 fide Zivkov and Raikova-Petrova (2001) W217 SL – – – 101 141 179 220 252 Frank (1962) W2181 SL F 0.09 L 67 92 122 158 185 240 260 230 311 fide Zivkov and Raikova-Petrova (2001) W219 (a) SL – – – 116 162 183 200 fide Kas'yanov et al. (1995) W219 (b) SL F 0.40 A 182 204 225 241 260 283 300 fide Zivkov and Raikova-Petrova (2001) W2204 SL F 0.24 L 121 167 202 220 248 265 fide Zivkov and Raikova-Petrova (2001) W221 (1987)4 ? F 0.13 – 86 109 128 143 161 167 182 202 214 Vøllestad and L’Abée-Lund (1987) W221 (1990)4 ? F 0.15 – 120 135 150 167 176 189 203 211 245 Vøllestad and L’Abée-Lund (1990) W2224 SL F 0.07 – 128 144 168 184 202 247 Kas'yanov et al. (1995) W223 SL – – – 114 131 153 177 198 Kas'yanov et al. (1995) W224 (zone A) ? F 0.10 – 90 125 150 180 205 220 230 280 295 320 Przybylski (1996) W224 (zone B)1 ? F 0.12 – 90 125 150 180 205 230 245 275 Przybylski (1996) W224 (zone C)1 ? F 0.18 – 95 130 160 185 215 230 245 270 280 Przybylski (1996) W224 (zone D)1 ? F 0.20 – 80 125 150 180 200 220 225 Przybylski (1996) W2254 SL F 0.15 L 81 120 157 187 213 238 252 fide Zivkov and Raikova-Petrova (2001) W226 FL – – – 141 162 172 188 200 Cragg-Hine and Jones (1969) W227 FL F 0.10 – 70 93 120 131 150 172 179 206 Cragg-Hine and Jones (1969) W228 FL F 0.09 – 64 108 116 133 142 166 168 Cragg-Hine and Jones (1969) W229 FL F 0.18 – 83 100 110 123 130 179 Cragg-Hine and Jones (1969) W230 FL – – – 118 183 216 248 260 Gee (1978) W231 SL – – A 130 159 183 fide Zivkov and Raikova-Petrova (2001) 1 Mean LAA values averaged over males and females. 2 Caspian roach R. rutilus caspicus.</p><p>3 Value for t0 constrained to 0 because of lack of fit. 4 Mean LAA values estimated from figure in source study.</p><p>5 Value for t0 equal to 0 from fitting.</p><p>19 6 Re-fitted because of unrealistic VGBF parameter values in source study.</p><p>20 Supplementary references</p><p>Angélibert S, Brosse S, Dauba F, Lek S (1999) Change in roach (Rutilus rutilus L.) population structure induced on draining a large reservoir. CR Acad Sci III-Vie 331–338.</p><p>Arzbach H-H (1997) Untersuchungen zur allgemeinen Ökologie, Radioökologie, und Trophodynamik am Fischbestand des Plußsees in Schleswig-Holstein. PhD Thesis, University</p><p> of Hamburg, Germany.</p><p>Auvinen H (1987) Growth, mortality and management of whitefish (Coregonus lavaretus L. s.l.), vendace (Coregonus albula L.), roach (Rutilus rutilus L.) and perch (Perca</p><p> fluviatilis L.) in Lake Pyhäjärvi (Karelia). Finn Fish Res 8:38-47.</p><p>Banks JW (1970) Observations on the fish population of Rostherne Mere, Cheshire. Fld Stud 3:357–379.</p><p>Baranova VV (1984) Growth of roach, Rutilus rutilus (Cyprinidae), in the Reservoirs of the Upper Volga Basin. Vopr Ikhtiol 242:253–257.</p><p>Beardsley H, Britton JR (2012) Contribution of temperature and nutrient loading to growth rate variation of three cyprinid fishes in a lowland river. Aquat Ecol 46:146–152. doi:</p><p>10.1007/s10452-011-9387-3</p><p>Burrough RJ, Kennedy CR (1979) The occurrence and natural alleviation of stunting in a population of roach, Rutilus rutilus (L.). J Fish Biol 15:93–109. doi: 10.1111/j.1095-</p><p>8649.1979.tb03574.x</p><p>Büsser P, Tschumi PA (1987) Nahrungsökologie der Rotaugen (Rutilus rutilus L.) im Litoral und Pelagial des Bielersees. Swiss J Hydrol 49:62–74. doi: 10.1007/BF02540380</p><p>Chitravadivelu K (1974) Growth, age composition, population density, mortality, production and yield of Alburnus alburnus (Linnaeus, 1758) and Rutilus rutilus (Linnaeus, 1758) in</p><p> the inundation region of Danube – Žofín. Acta U Carol Biol 1972:1–76.</p><p>Cowx IG (1988) Distribution and variation in the growth of roach, Rutilus rutilus (L.), and dace, Leuciscus leuciscus (L.), in a river catchment in south‐west England. J Fish Biol</p><p>33:59–72. doi: 10.1111/j.1095-8649.1988.tb05448.x</p><p>21 Cragg-Hine D, Jones JW (1969) The growth of dace Leuciscus leuciscus (L.), roach Rutilus rutilus (L.) and chub Squalius cephalus (L.) in Willow Brook, Northamptonshire. J Fish</p><p>Biol 1:59–82. doi: 10.1111/j.1095-8649.1969.tb03845.x</p><p>Cryer M, Peirson G, Townsend CR (1986) Reciprocal interactions between roach, Rutilus rutilus, and zooplankton in a small lake: prey dynamics and fish growth and recruitment.</p><p>Limnology and Oceanography, 31: 1022–1038. doi: 10.4319/lo.1986.31.5.1022</p><p>Epler P, Popek W, Luszczek-Trojnar E, Drag-Kozak E, Szczerbik P, Socha M (2005) Age and growth rate of the roach (Rutilus rutilus L.) from the Solina and the Tresna (Zywieckie</p><p>Lake) dam reservoires [sic]. Acta Sci Polon Pisc 4:59–70.</p><p>Ergüden S (A), Ergüden D, Göksu MZL (2008) Seyhan Baraj Göl'ündeki (Adana) kızılgöz (Rutilus rutilus L., 1758)’ün büyüme özellikleri. Journal of FisheriesSciences.com 2:77–</p><p>87. doi: 10.3153/jfscom.2008008 [In Turkish with an abstract in English.]</p><p>Estlander S, Nurminen L, Olin M, Vinni M, Immonen S, Rask M, Ruuhijärvi J, Horppila J, Lehtonen H (2010) Diet shifts and food selection of perch Perca fluviatilis and roach</p><p>Rutilus rutilus in humic lakes of varying water colour. J Fish Biol 77:241–256. doi: 10.1111/j.1095-8649.2010.02682.x</p><p>Frank S (1962) A contribution to the growth of roach, rudd sand white bream in some waters of Czechoslovakia and Poland. Věst Česk Spol Zool 1:65–74.</p><p>Gee AS (1978) The distribution and growth of coarse fish in grave-pit lakes in south-east England. Freshwater Biology 8:385–394. doi: 10.1111/j.1365-2427.1978.tb01459.x</p><p>Giannetto D, Carosi A, Ghetti L, Pompei L, Viali P, Lorenzoni M (2014) Size selectivity of gill-nets and growth of roach Rutilus rutilus (Linnaeus, 1758) an alien species in</p><p>Piediluco lake (Italy). Knowl Manage Aquat Ecosys 413:07. doi: 10.1051/kmae/2014001</p><p>Goldspink CR (1978) Comparative observations on the growth rate and year class strength of roach Rutilus rutilus L. in two Cheshire lakes, England. J Fish Biol 12:421–433. doi:</p><p>10.1111/j.1095-8649.1978.tb04185.x</p><p>Goldspink CR (1979) The population density, growth rate and production of roach Rutilus rutilus (L.) in Tjeukemeer, The Netherlands. J Fish Biol 15:473–498. doi: j.1095-</p><p>8649.1979.tb03632.x</p><p>Guthruf J (2002). Die biologie des Rotauges im Luganer-see (Kanton TI). BUWAL Mitteilungen zur Fischerei 74.</p><p>22 Hanel L (1991) Růst čtyř druhů kaprovitých ryb v řece Berounce. Živočišná Výroba 36:929–937.</p><p>Hart P (1971) The roach (Rutilus rutilus L.) in the River Nene, Northants. and its relationship to four other fish species. In 5 th British Conference Proceedings, University of</p><p>Liverpool, UK, pp 138–145.</p><p>Hartley PHT (1947) The coarse fishes of Britain. Freshwater Biological Association, Scientific Publication No. 12, Wray Castle, Ambleside, Westmorland.</p><p>Hellawell JM (1972) The growth, reproduction and food of the roach Rutilus rutilus (L.) of River Lugg, Hertfordshire. J Fish Biol 4:469–486. doi: 10.1111/j.1095-</p><p>8649.1972.tb05696.x</p><p>Hofstede AE (1974) Studies on growth, ageing and back-calculation of roach Rutilus rutilus (L.), and dace Leuciscus leuciscus (L.). In: Bagenal TB, The Ageing of Fish. Farnham,</p><p>Unwin Brothers, pp. 137–147.</p><p>Holčík J (1967a) Life history of the roach-Rutilus rutilus – (Linnaeus, 1758) in the Klíčava valley reservoir. Věst Česk Spol Zool 3:213–229.</p><p>Holčík J (1967b) Age, growth and life history of the roach-Rutilus rutilus carpathorossicusVladikov, 1930, in the Orava valley reservoir. Zool Listy 16:87–97.</p><p>Hornatkiewicz-Zbik ZA (2003) Fecundity of roach Rutilus rutilus (L.) from the coastal lakes Gardno and Łebsko. Acta Sci Pol Pisc 2:71–86.</p><p>Horppila J (1994) The diet and growth of roach (Rutilus rutilus) in Lake Vesijärvi and possible changes in the course of biomanipulation. Hydrobiologia 294:35–41. doi:</p><p>10.1007/BF00017623</p><p>Horppila J (2000) The effect of length frequency ranges on the back-calculated lengths of roach, Rutilus rutilus (L.). Fish Res 45:21–29. doi: 10.1016/S0165-7836(99)00099-5</p><p>Jamet JL, Desmolles F (1994) Growth, reproduction and condition of roach (Rutilus rutilus (L.)), perch (Perca fluviatilis, L.) and ruffe (Gymnocephalus cernuus (L.)) in eutrophic</p><p>Lake Aydat (France). Int Rev ges Hydrobiol Hydrogr 79:305–322.</p><p>Kännö S 1969 Growth and age distribution of some fish species in the river Panimionjoki, southwestern Finland. Ann. Zool. Fenn 6:87–93.</p><p>Kas’yanov AN, Izyumov (1995) Growth and morphology of roach, Rutilus rutilus, from Lake Pleshcheveyo after introduction of Dreissena polymorpha. J Ichthyol 35:13–15.</p><p>Kas’yanov AN, Izyumov YG, Kas’yanova NV (1995) Growth of roach, Rutilus rutilus, in Russia and adjacent countries. J Ichthyol 35:256–273.</p><p>23 Kempe O (1962) The growth of the roach (Leuciscus rutilus L.) in some Swedish lakes. Rep. Inst. Freshwat. Res. Drott 44:42–104.</p><p>Lappalainen A, Rask M, Koponen H, Vesala S (2001) Relative abundance, diet and growth of perch (Perca fluviatilis) and roach (Rutilus rutilus) at Tvaerminne, northern Baltic Sea,</p><p> in 1975 and 1997: responses to eutrophication? Boreal Env Res 6:107–118.</p><p>Li H, Shen J, Ma X, Liu Y, Zhao Y, Liu Q, Hao Z (2009) Growth characteristics of coach Rutilus rutilus (L .) in Ulungur Lake in Xinjiang Uigur Autonomous Region. J Huazhong</p><p>Agric Univ 28:202–206. [In Chinese with an abstract in English.]</p><p>Linfield RSJ (1979) Changes in the rate of growth in a stunted roach Rutilus rutilus population. J Fish Biol 15:275–298. doi: 10.1111/j.1095-8649.1979.tb03608.x</p><p>Mann RHK (1973) Observations on the age, growth, reproduction and food of the roach, Rutilus rutilus (L.) in two rivers in southern England. J Fish Biol 5:707–736. doi:</p><p>10.1111/j.1095-8649.1973.tb04506.x</p><p>Mitrofanova LN (1976) Plodovitost’ plotvy Pskovsko- Cudskogo ozera. Trudy Pskovskogo otdelenija GosNIORH 2:94–100 (In Russian).</p><p>Müller R, Meng HJ (1986) Factors governing the growth rate of roach Rutilus rutilus (L.) in pre-alpine Lake Sarnen. Schweiz. Z. Hydrol. 48:135–144.</p><p>Naddafi R, Abdoli A, Hassanzadeh Kiabi B, Mojazi Amiri B, Karami M (2005). Age, growth and reproduction of the Caspian roach (Rutilus rutilus caspicus) in the Anzali and</p><p>Gomishan wetlands, North Iran. J Appl Ichthyol 21:492–497. doi: 10.1111/j.1439-0426.2005.00669.x</p><p>Okgerman H, Oral M, Yigit S (2009) Biological Aspects of Rutilus rutilus (roach) in Sapanca Lake (Turkey). J Anim Vet Adv 8:441–446.</p><p>Papageorgiou NK (1979) The length weight relationship, age, growth and reproduction of the roach Rutilus rutilus (L.) in Lake Volvi. J Fish Biol 14:529–538. doi: j.1095-</p><p>8649.1979.tb03552.x</p><p>Ponton D, Gerdaux D (1987) La population de gardons (Rutilus rutilus (L.)) du lac Léman en 1983-85. Structure en age, detérminisme du recrutement, analyse de la croissance. Bull</p><p>Fr Pêche Piscic 305: 45–53.</p><p>Przybylski M (1996) Variation in fish growth characteristics along a river course. Hydrobiologia 325:39–46. doi: 10.1007/BF00023666</p><p>Putkis O, Batsianiou I (2005) Age and growth of roach, Rutilus rutilus in Lake Erken: influence of density. Uppsala University, Department of Limnology, unpublished manuscript.</p><p>24 Sedaghat S, Hoseini SA (2012) Age and growth of Caspian roach, Rutilus rutilus caspicus (Jakowlew, 1870) in Southern Caspian Sea, Iran. World J Fish Mar Sci 4:533–535.</p><p>Skóra S (1972) The roach (Rutilus rutilus L.) from the dam reservoir in Przeczyce. Acta Hydrobiol 14:399–418.</p><p>Specziár A, Tölg L, Bíró P (1997) Feeding strategy and growth of cyprinids in the littoral zone of Lake Balaton. J Fish Biol 51:1109–1124. doi: 10.1111/j.1095-8649.1997.tb01130.x</p><p>Spivak EG, Pinus GN, Sentishcheva SV (1979) The age composition of the spawning population and the characteristics of the spawners size-age structure and fecundity of the roach,</p><p>Rutilus rutilus spawning in Kakhovka reservoir. J Ichthyol 19:75–80.</p><p>Vinni M, Horppila J, Olin M, Ruuhijärvi J, Nyberg K (2000) The food, growth and abundance of five co-existing cyprinids in lake basins of different morphometry and water</p><p> quality. Aquat Ecol 34:421–431. doi: 10.1023/A:1011404721775</p><p>Vøllestad LA, L’Abée-Lund JH (1987) Reproductive biology of stream spawning roach, Rutilus rutilus. Env Biol Fish 18:219–227. doi: 10.1007/BF00000361</p><p>Vøllestad LA, L’Abée-Lund JH (1990) Geographic variation in life-history strategy of female roach, Rutilus rutilus (L.) J Fish Biol 37:853–864. doi: 10.1111/j.1095-</p><p>8649.1990.tb03589.x</p><p>Volta P, Jepsen N (2008) The recent invasion of Rutilus rutilus (L.) (Pisces: Cyprinidae) in a large South-Alpine lake: Lago Maggiore. J Limnol 67:163–170.</p><p>Wenlin L, Wenkang C, Xishun F, Yuying P, Xiaochun M, Meisen H, Jing S (1992) Age and growth of Rutilus rutilus lacustris (Pallas) in Sai Li Mu Lake. J Shihezi Univ (Nat Sci)</p><p>4:57–66.</p><p>White RWG, Williams WP (1978) Studies of the ecology of fish populations in the Rye Meads sewage effluent lagoons. J Fish Biol 13:379–400. doi: 10.1111/j.1095-</p><p>8649.1978.tb03446.x</p><p>Więsky K., Załachowski W (2000) Growth of roach Rutilus rutilus (L.) in the River Odra estuary. Acta Ichthyol Pisc 30:3–17.</p><p>Williams WP (1967) The growth and mortality of four species of fish in the River Thames at Reading. J Anim Ecol 36:695–720.</p><p>Zaugg B (1987). Quelques aspects de dynamique des populations, de biologie générale et de biométrie du gardon (Rutilus rutilus L.) dans 4 lacs du plateau suisse. PhD Thesis,</p><p>Université de Neuchâtel, Switzerland.</p><p>25 Załachowsky W, Krzykawska I (1995) Growth rate of roach in Lake Dąbie. Acta Ichthyol Pisc 25:1–17.</p><p>Zivkov M, Raikova-Petrova G (2001) Comparative analysis of age compositon, growth rate and conditiond of roach, Rutilus rutilus (L.), in three Bulgarian Reservoirs. Acta Zool</p><p>Bulg 53:47–60.</p><p>26</p>