Project: A.I.D./csd-2270 INTERNATIONAL CENTER FOR AQUACULTURE Task Order No. 4 RESEARCH AND DEVELOPMENT SERIES NO. 2 NOVEMBER 1972 Fortalezc CEARA C- i Sa OBrasilia / / ( ( * (" Rio de E oJaneiro0 * I Natal. Progress - Report on Fisheries r Development in Northeastern 3razil II. International Center for Aquaculture Agricultural Experiment Station AUBURN UNIVERSITY R. Dennis Rouse, Director Auburn, Alabama ACKNOWLEDGMENT The author would like to acknowledge the excellent co- operation given by every Brazilian with whom he conferred, and to especially acknowledge that cooperation, good will, and friendship displayed by Odilo Freire Dourado and Joao de Oliveira Chacon, counterpart biologists of the fisheries biology project, Progress Report on Fisheries Development in Northeastern Brazil II. Reservoir Fisheries of Northeastern Brazil W. D. DAVIES 1 INTRODUCTION THE UNITED STATES Agency for International Development has been providing assistance to the Government of Brazil in freshwater fisheries since 1966 under a program entitled, "Fish Production, Processing and Marketing." The DNOCS 2 has the responsibility for inland fisheries; assistance has been made available to DNOCS through agreements administered by SUDENE. 3 The USAID project agreements to date have consisted of monetary and technical assistance contracted to the United States Bureau of Commercial Fisheries 4 (from 1966 to 1971) and the Auburn University Agricultural Ex- periment Station International Center for Aquaculture (from 1969 to 1974). The project goal established for this assistance is to create within DNOCS a freshwater fisheries group capable of plan- ning and conducting practical research programs in the fields of fish culture, fisheries biology, and food technology. The objectives are to increase fish production in northeastern Brazil through proper management of the freshwater fisheries, improve fish processing methods, and to introduce intensive fishculture techniques. Once these objectives are achieved, then a certain degree of progress can be made in improving the general well-being of the people by increasing the amount of protein available for human consumption and by creating opportunities for capital investment. This report will summarize and evaluate USAID assis- tance in fisheries biology, with special emphasis on the Au- burn University Contract AID/csd-2270, Task Order No. 4 (November 1970-August 1972). A brief description of the Drought Polygon of northeastern Brazil, the reservoir fish- eries, and the marketing systems will be followed by sections on past and present strategy, project status, and recommenda- tions for future action. BACKGROUND The Drought Polygon Nine states comprise the area of northeastern Brazil, from Bahia in the south to Piaui in the north. Except for the littoral 1 Assistant Professor, Department of Fisheries and Allied Aqua- cultures. 2 Departamento Nacional de Obras Contra as Secas (National Department of Works Against the Drought). tSuperintendencia do Desenvolvimento do Nordeste (Superin- tendency for the Development of the Northeast). 'Now the National Marine Fisheries Service. zone and the area west of 440 West Longitude, all of the above states are included in an area termed the Drought Polygon. This area consists of approximately 1 million square kilometers, or about 70 per cent of northeastern Brazil. The littoral zone usually extends several miles inland to where the land rises to form a low plateau. Characteristic geo- graphical features are intermittent streams and low, rounded remains of Precambrian igneous extrusions. The permanent rivers of this region are the Parnaiba and the Sao Fran- cisco (4). FIG. 1. Map of northeastern Brazil showing the Drought Polygon. The plateau region is plagued by frequent droughts and poor soil fertility. Even in non-drought years, there is usually a 6- to 8-month period with little or no rainfall. As a result, the region is experiencing slow economic development (9). Also, the diet of the people is markedly inadequate in pro- teins, especially in the high quality proteins which are present in meat and fish products. The present low dietary level has FIG. 2. Average monthly precipitation (1912-1967, Nov.-July) for the State of Ceara, Brazil. 1912/67 Dec. ---1970 deficiency Nov \J an. 120 uly 40 May 2 . 9 31 24 1:6 0 8 1.6 2.4 3.1. Mar. 3une FIG. 3. Average monthly precipitation (1912-1967) for northeastern Brazil (inches)The DNOCS Government of Brazil has been constructing reservoirs in 120 June of approximately 850 reservotiizers. These are estimated to rep-and resent about two-thirds of the major available sites for largetion is The DNOCS (mm) (inches) (mm) (inches) reservoirs. Of these, 254 are classified as public reservoirs; 117 contain 2 million cubic feet or more of water (unpub- lished DNOCS statistics). These reservoirs were used at first for water storage to serve as oases during periods of drought, and later for irrigation, hydro-electric power, and fish production. Characteristic physical and chemical features of these wa- ters are as follows: temperature differences from top to bot- tom (less than 30F) are usually not sufficient to prevent mixing of the water column by wind action. However, during calm periods, water greater than 10 meters in depth can be- come devoid of oxygen. Alkalinity remains between 55 and 88 p.p.m., pH 7.0 to 8.0, and salinity 60 to 100 p.p.m. Yearly variation in surface elevation can be as great as three meters. During the rainy season (March-July), the reservoirs often will overflow (3). DNOCS has the responsibility for managing the freshwater fishery resources. They have established fish hatcheries at Ico, Ceara (Lima Campos); Maranguape, Ceara (Amanari); Caico, Rio Grande do Norte (Itans); and Itiuba, Bahia (Jacurici). They also have a Center for Fisheries Research at Pentecoste, Ceara, a Division of Fisheries and Fish Cul- ture in each of four regions to collect fishery statistics, and a Directory of Fisheries and Fish Culture for administrative purposes. The Fisheries Services within DNOCS are depicted in the following abbreviated organizational chart. Organization of Fishery Services within DNOCS Ministry of the Interior Director General, DNOCS General Directory of Administration Directory of Finance and Records General Directory of Irrigation Directory of Studies and Projects Directory of Irrigation Directory of Fisheries and Fish Culture Center for Fisheries Research Division of Fisheries and Fish Culture Directory of Works and Equipment Directory of Regions (4) Division of Administration Directory of Irrigation Division of Studies and Works Division of Assistance Division of Fisheries and Fish Culture Fish Hatchery Stations Division of Water and Dams Since 1945, fishery activities within DNOCS have been mainly concerned with production of fingerlings to stock new impoundments and the collection of fishery statistics. For example, once a dam has been closed, a DNOCS fisheries team will usually poison the natural population of fish to eradicate the various species of piranha. They will then stock the reservoir with several species of fish that have been acclimated from the Amazon, Parnaiba, and Sao Francisco rivers. Once populations are established, fishing is permitted. Fishermen must register their gear and pay a small fee per unit of gear as indicated in Table 1. At present, each fisherman must report to a guard station each day he fishes to record and weigh his catch. Regula- tions which are currently imposed on the fishery take the form of gill net mesh restrictions, quantity of gear, and closed seasons. tnW, 'I.S- I' ~ I *'~ *-' ~ *CeC~t. CS 4 I.,,.. t FlIG.T R - t, .v Oro . -ah ST r 1O[proximatly 35,000 hlectares 87,500 acres is the largest rrnpouecmen t in the State of Ceara. I \iL I.\lt\ il X('((I PER It'iI I loll \A11111CIi '111, 0ll is, afoot tto ftheit \ icfl of fishi fto 0111 io 1),1 110 hi iii 11 GvIIIN. . li t.sIii) IN III Rt Sl Ct (it I CIII liii C' tile \oit lit i axhoxxoii i Ti'.lbl 2. (W Nt '\I to xJit It\ lIi /il ('to ti, o. U.S. dollars gII'.tt't tftill 2' Ill. lesCC tfall 2 Io. gi 'a tl f .111 2 itt. 1('CC thall 2 Ill sitikitirgill iwt 'Floatttt tiJll t' I latil lie oit' hok Lili li l tii it ) ( (lt' I XXit ftiIItit Ioto 1 .501 2.00) 0(.035 1 00 1.50) 15.00) NA(1)' ttf ('X timt-' asCo Idli]\, 19172: ('i 1.00f ft.25 ft. 1 :1 ft. 341 ft.25 L'.S. 150.lT1 Freshwater Fisheries Production 'I fit flc.fx \ c i f isfeit s ofX tt l -th1 )f t',t lti i iia il Zite puii' t'itf Tx i:2. l'SIItxt-tti l,.\IIiI,C F-tOMt 'itt CSSxiiPIt A~tNID NINI\1 ISHiItt' tt I otl Braziil X1t i 1 tullsN :3,36 -,1 :36 1.65)1 I I 1521) "o t Iti's tifolls 1 258, ).68(5 98,s2 10f dfue tmoltI to fisheie lOX (lo 'liiia Itti ilOXX IX\ timpIideld Xxat('i . I it p1o)11tedItt t':cia('. hilOX eer, Ina\X .ilXI relet'' 11)111 t'lf'tcit effots b\ L )'OCS iii atlieritig ('111.1 dltal. 1 ~lbli :1 XsiiIXX the Xil 101(1 il 11 OCX ot'(il XXhichi I)N CS hias e'tjtilft'(l tital c'ti.'li f2_. 1 ftc iixtrifmoitoi f)X state' flI the 7 reservirs mitier 1)\( )(: .S jic-ttitli itt I1968 is p iesiitt'd ill TahIbl 4. '11lie ct.'iti iltito lIX stitte to tIhei to~tal caitch for that Xm t is XAso ('d folaid likc fisheriesx. Biat'ih ttil lNO( S c'atchf Xtdfjsfj( Z iv, 14W, c I OL cill11ac I, IIIIX X I III 1151 191( I I \ Table '. ILI REiSEROIRS0 U NDH DI1N OCS (C)\ I IICL NllibctI of XciltCel Il totill 12 12 12 12 12 12 165 22 23 2(5 2- 33 6(6 6 65 'FI XII 4. Dis III~l 110tto' AND 19658 CA It H 100i DNOCS ISLXsI ivo011 State P'iau~i (Cilr R.iI G- 1 doort \itrie(ibi' -- Pel1ia11l8' 13 ri I 'N lIlher ofI :36 11 .5 1- 6 ('Itch1 118 8,047T :370 1.970) :32 8:14 23 I X III I tH 5. IEL.I PER HECRE ~ i XI 01'ouii DNOCS HIs'iwnis 1 icXc'IX il- I e orc II-IIt- alrea 1965 ff111 Ic's Kg. Ilia' Arit 9, 6I2 952 265(11228) ClllpilX 1.514 54( 47) Vl'uil~flhia 987 84( 71) Yi eld 1 1966 19657 19658 2:36(208) 144( 127) 112i9)8) 7:3) 64) 54 47) 92(81) 391 52) 59( 352 86( 76) 87(77) 52( 16) 7 1(62 Gear Th lw prillt'ipill t\ 'pe of ihliog (4cII usedi ill tIC reservXoir1 fisiesrj' is tile niohl~l~flneilt (rill lIct. alltoghl lthei tX- pes Ill 13eilI MrT tl0I11t11011. Thtese nlets wXere' hiis inrduc 11 IIC il 1I9.57, and it in1 i few CX XCeIIs tilev t'otlplett'l IrCplaIced clttll IcIt. 9 'celtinietet X (stretch (ineasutI (et) tflr siiikilg o( et'. and .5 ceoltimetels Xfor floalting nts (,15.4 .111( 1.97 ioctieX Ie- XIpettivlX . Ths ne'I'I(ts ar1e usuallyX 3( 50 I lof0) illefers ( 1(54 toI .'28 feet' ) ill lelogli. I to1 2 lotter.( 1:3 to (5.6 icet ) 1 6 FIG. 5. Monofilamenl gill nets, the main type of fishing gear used in the reservoirs of northeostern Brazil, are usually set in the evening and fished the following morning. cc('111 11.1.), pest'.aia do p-iiitoi (Plaaio~sioII w(/I(IIlooO I.X110 tIar U M) 0 dplo I dbaicisll 0 i al /1111 lil 11115 ) ['1 liC dcrc1 ) C to IIXC i C \X el ddel 1(1 1,11II X lile ugIIIC sp.). 1 Floa It l is ft(' prleferredi gC.ill for tulll1.rC (wila and0 II .1( Fishermen \X\here thleX also( tt'lot Xtsii ll Iols. IlctCnt X111X vsX 11,1e XhiiXI Itti X l to ll ijt~ fi eit iif Ijl\ 1111 ( Tit ] X ) its 1131)1ill ' .I JI Illoo h lar~ge lilt i(loiX I 'I Thle i)Iltio1i of is ctlcih ilA) Ill' Xs'llX (h1ill 13 tilt 5 (.11 Is XXIItil apprliIIIilf'I 1,92ff.00f cl uzir/'11 ( 1.S. 8.32(5.fif XI egi(1 I IX CHX $2AS8180 pet I(' r 11111111111 X .13 1722) Hl \l IIII i (526 1,0)41 6:39 489 492 921 1A1is 1,547 1,839 2.305 6,.446 7 98 10,125 8(5(60 10,387 11,082 10,016 11,9:36 Total poduction 4A FIG. 6. Long lines baited with sm-all freshwat~er snhrimp ore used mainly tor taking pescada do piaui (Plagioscian squamaosissimus' tot CH 8:3.00( pei kiiogrti m (Ut.S. St.15 tii 0.23 peri poiiiid) ii t uthat i i-ketx. 'Ill', ixeri age fixhel malii flax six (Ileeftt xxIho xx\iil eoii xtille albolt 20) peirIi cc t flhx (itch fie lixilx ixx hiixis eciliie, hiioikx, nletsx. nd lilies, liut ilii a ma i ee tiiexe iteiiix xx i'l fiitiied thrioighi tiii itiliocdiiii-. x\xxto flux xi's eattell. It ii's xa xfiieitt ioi te tol put eiiaxe it biexle inidiilIdioi. Marketing liixi f-tlfiIctx ill 111 ioleixtei i Bi ,uzil exeeds tue xtf-pfx flux's- cx Ii I ifixx tel fishi fproidiucts iii lihis legiiliax hie ti iditiiiiilix bee te it. loxx priced fiiood i teu x \\ieell comi) -ilid to porik, f-iiio tix\ itlid elf its xiiiixx ill iiiI Mle 6. TABLiE 6. IHx'xiJ ix P, i P IE PEit fxIiMA Piioxlii lxi xIii AND x PIiuiiiu i. ixNI xx 1072, 'on i ',LiZA. CE (A Proiut \\ ol fiii ifis'siwtl fiih WhI ii xitx iteI ftxsi siltiif fix 1 i ii tis (.1 iliiid fet17e Poit lc ii \N fiii i lakiii 13.iii't ill p1i1(' 1)l11) . ('F U.S. 1t59- 3.51) 10.190.62 2.00 5.0 til 1 t5t-0A 5.00) 7.010 0.39-1.54 8.501)12.00t 0.65- W .0 Tiie lixx prtill' of t exii~tei flih prodcts( ix fpio-tix 11111 to fe tixil f-ii iiiti\p , qifilitx iof tile pi dllt. '[iie iiatcfiig, (lix tiilitiiiiii. aid n-iliketitig xx xteio iii' iuitt d l'ilull tiitialill x Fior exapl, i sh (li laded iii the ill huig i' ile ev xixceratdt(. F ixh ellptlind bx (ri tictx Illi iiix e becoeii 1111 iii tue xx iltei huml 6 to I-) ihiiuis. Fihl \xt un)xx tli 5 2-86 F") c'ieoui gs tioti. It fii', fixhi all tiot soldlfi'oir' tihex beginto bi lozit, l Iex ii e xsiteuf mtill x iiif id. The (lixti ibititi xx xteo- ixoe i ix 'niddie Inei xxIiio ti liixiol' ooilei'~ loot. xe rlal (lix- x ccr oui il ixifixh tlltixii ot'( hlxd i'l aoxx iiilii t\o iiii tiiiaiit il, iii te il' fjxi iid to xiif ltlt x etafutr x\xIiito (ix thiiir fiodult from fiieto huiuuxi. fhex kets frot lcal rc('xi xoii . Nerx, Icxx retailers iixe tLiciljtics for iloilintg flihole tihilli it (iti ,. .\s t reslt titex chinllteli',tiidix bti'y les's fish thati PAST STRATEGY Agreement Organization At1. the bi1'ieiiriexi~ 'of t is ,iog111 elii t el lm iiu ofil l- potAeiin p1odlicttiofl ti 711(11gil trIm ater fishleries r esour ce il iii- ageinet t. A pr11iiir\ cl i , illl \itsx the ex shi j 'shil It oft at flintititilll lllxtjttltOll wxitint iNOCS calllie oif (le'lipilog illl aplivilg ihlilagetleiit pr inciiples. This, 111117 \\,its to ibe h l~iodc l)\ fiinliili conltr ibultionsx front CONTAP 17 p 1711101gli SILDENE LT USAID, amid iNOCS. After xix end delax x, tile 1)bixti s ttre till h eaili(hIti-tels xto IIIl ibola torx spiaee \'s ented iii j Ilx t19(67. -\i ai(lditiollili 9 1)111tix wxere heeded to (ONV M \ "\ iO HP\ N the suggexted orgail/aitioo i ad stzitfiiig i e( xilo\ix illii the ehll o il tiie toiioxx l)ug p-iwg 'I'l pli o -ciiiiiled ti ilex eloiii g at eioxe xxiiikiig leilittilliilip wxithi cett eel hel it iIliiin gox erimelit iweniesx tiiexe bi'ii SUI.DENE itdi S UD)PE7 xxihei hax e the responsbixlity fllt it igi ti xuivi xioii aniid fiiidiiig respeetixe Ci A lxo, it xx ax (i'xxetiii tihat the ttiietjiitix oif the tiexx I exel(iic groulp lie xx ill (lefileli xxjtiiti the i)"OtIS xlstilite xii ixs toi ix ij fllatld. Ax it ciilt, tile (X)N\EN 1 DP \N xxit lixidiiiiitrii tixe pi lallced kinder the iitt'tiii if Dri 0simat Fisiits'iis-'i ireetiii of' isheriex ill Fixsi Ciiitioe 781) It \x l pi tix (fie toi tiiexe ciilx iii giloii/tilll it iroblemsi tha txs ofii tie thiiee 13111edO of (:111) tleiilii iiei iex ci l- ticlt pciooe xii we xtre' xtstiiiliel ill Recife, PCI Iianxlioo xxithi the Agyiuetiii aod~ iBiiai Dexeiiicitt Dix ixioll. US \Ii lathier titi iill'iiltiie.it, Ceara, xx iere the ON\ EN 0 i)P.N is lleitel. :\it ofbxioxusl dxiwilck to tis i titgelleilt xxitx tue dljfietltxv it impoxedi il teeliii asixxtiiitx ill fixh- cies' Ihioiiix \\h ieil tiex tijedl ituleiiliiiilg t~iii'i Ii ailiail eil iti aitxoil of~i ix it(, fieild t Ip Agreement Inputs i)NO( S pcixotief (iiaiix i0t)oi 131) Zixigliid tio the pro ijet iottetiii azd el ii side ihl e field experienle xits iieriex lioiltitx; iiox'scxci tiiex uxoailx leld tiitix ersitx lfegle(x ill tue fieldx of igliiill ii yieuitid l eigilleerilig, x eteiilix- I eiie fplial iae or eistry . Illi aldditiili. thexv iiilx haid little expeii elee xxiiiking ix, ati ititelIixcilpulill x\ grlo. lieeiixe iol tis, eipiixxxa piaced il paitif-iipit titii ii g ('.1 ii iii the progi O) l (ae.6ptilepi x a ei leix el xi)eiil 9 iiiitli couile xex t xitiriox uiveix ities ill tile 1,'oiltedI Stitex. hree liix eleceixeli tiiiiiioig ill food pirii cexxinlg, one ill tisheie' cs ibiogxp- ooiie ill liinniiogx ' , aiil iii illii fixhI iuture. Fiv e iif the xix pinlieipaitx htx e ililld di- N lix' t li Stil it iiia di ( iitinit i Eiinoici ca lciii I Research I .f Reservoir Fish Technology Biology and Chemistry I + I. Limnology Economics I I River Fishing Biology Technology I Intensive Fish Culture I Marketing DPAN I SERVICES .1 Intensive Fish Culture I Administration I ,# I + Procurement Paying Au I n I i+ Audit and Personnel Accounts I Library I Operations Facilities Equipment Construction Maintenance Transportation I FIG. 7. Freshwater Fisheries Resource Management personnel chart (asterisks indicate sections now functioning). rectly associated with the program. They returned not only with improved technical abilities, but with a much better attitude toward applied research work. Also, four partici- pants from the CONVENIO DPAN and other sectors within DNOCS have recently returned from a 2-month tour of fish hatchery and laboratory facilities in the United States (5). Additional assistance and training was provided by con- tracting consultants from Auburn University for periods up to 10 weeks in 1966, 1967, and 1968. Teams consisting of three men each worked with Brazilian counterparts at sev- eral reservoirs and local fish hatcheries to determine the po- tential for increased fish production. Various methods of stock assessment that provided a logical framework for plan- ning continued studies were introduced. Several of the 1966 team's recommendations, namely that the natural fish pro- duction from reservoirs could not be substantially increased and that a program of intensive fish culture in small ponds be initiated, were significant in that they altered the em- phasis of the CONVENIO DPAN from fishery biology and food technology to intensive fish culture (1). A short-term marketing study conducted under USAID sponsorship in 1967 upheld the feasibility of using intensive fish culture for increasing the food supply and decreasing protein deficiency in northeastern Brazil (6). A typical mar- keting study, to be conducted simultaneously with the de- velopment of intensive fish culture systems, was recom- mended to ascertain the extent of the market potential. To date, 54 ponds, with a total surface area of 4 hectares, and a field laboratory have been constructed on a site near Pentecoste, Ceara. A fish culture specialist contracted from Auburn University arrived in October 1969, to assist in fish culture research activities. A program of technological as- sistance in fish culture and extension is presently scheduled through June 1974. 8 CURRENT STRATEGY Objectives Technical assistance in fisheries biology of reservoirs will terminate with Task Order 4, Auburn University-Brazil Con- tract, AID/csd-2270 in August 1972, culminating almost 6 years of advice and direction to the project. The broad ob- jectives of Task Order 4 were to assist the Brazilian counter- part biologists in developing management policy from existing research findings and to advise on present and future ac- tivities. Upon my arrival in Fortaleza in October 1970, I found that although a tremendous amount of data had been col- lected very little had been accomplished in their analysis to form a basis for management recommendations and scientific publications. Although the two Brazilian counterparts as- signed to the project were diligent workers, they were not aware in many cases of methods of analysis basic to fishery investigations. After becoming familiar with the desires and needs of my counterparts and the reservoir fisheries in general, I pro- posed the following work schedule: 1. To accompany the Brazilian biologists on all of their field trips (usually 5 to 10 working days per month) in order to introduce new field methods and recommend revisions in existing ones. 2. To actively assist in the summary, analysis, and publi- cation of existing data. 8. To demonstrate acceptable procedures for sampling programs and in the design and analysis of experiments. 4. To increase the harvestable production in terms of pounds of fish through the introductions of new species. 5. To assist in the preparation of proposed recommenda- tions for the rational exploitation of the fishery resources. I . Extension Fish Technology Fishing Technology t r--- -I- _~ " I ~ _ _ _~_ I III JIliON , \ . it xx 0111(1 liil\x i ' ti iiifi~oxo,,il~c to itt 1)111 filent'Iilor 101 CCfielit Ii ('tIo~ ofI oltrltf(i ll I NNithlit l)(coillill(4 totoll .Ix all iojil \\ it]I tI flet I (,.stix oji- fis Iic'ics tN tI i( iiiiiilset 011(1d (list] illltioll N\ stems, ai'I flit' life xt\ IC aut 1 liit''I of ft'e fish- trileci. It wasO coiid cq(1 l ('ifl y Iilfporl ot toilt bc \ imie of the cos t of (Itta co't im , Ii Itcinx of' totaol casN Ii C ei itli tills and 01(1inoi\ e\ Ci Ii(fll il it SNoi thalt adted~l Ii ocCd firesC could Ilie ciiiiiiiCel NN itlioti f'SA\II oi ( '( Al) ?iioiil coil 'olitliiiitii iii . Initial Recommendations A first ,tell'f i ts O to liiiit field ioctxitiCN to t\NN ii I'csi\oiiri CNseiitizil for lex Clopilig iniiii(reiiaii 1 )oit\. INN I lesNxi N ) that wer cIC(hara'cteititc ill Nsi ~il ig ii( f iiuii iif tilt 1)I111 1-'NC1N ti Ns ill1(1 o ltliC0Nteii B azil xx l- ('t tfoseti. IlilNI \\i ci F iiitqtillit and( Hiialiiiii, 987 Out 1 I 9,000~ liltLiii iiiNi zl't'0 Mid( 22 alitl - \('ii ill a(4( ifl te Experimental Gill Net Studies Ii iitiail i 'ttiitii~l ld tiiiN delt'lf NI} I i i' I\l liiilt MIii ('isioii. V'oi examlple. l)"O( S l)iolotliiINx li( t'oilitl(T rotine (rill inet seICctioii stildiesN \\er n'( ot ti!'dii nig thet illakiiig 0f tlfiiiitive C lteiiiialtioii oif gill litt NCIcctioiI difficult. Piex jooix c'ollected i tit x\\tif( adluxtu ti i t'e fiiial aiiakl, tisiliur factorN Olbtaiil b\~ exciliitillk fishinig if Nt'icN old aiid ixx ( uiiifoi i) litN. TheseI dtil. aloiig \xitl ill formiiitioii ol (r1 oNX fli aiit 1 iiiiii tali \\ill prov)Nide the bitai Contiiiued rouitinet fixliiiig of expi' iiiciil gill iltIN iN 1-(ti ltiigtii aod x Cfigot ilCi peieiit'it detl ChIN .tIil tldikti l toi tliN ligtI it glti iiiolitiiiliti tot'liii-i'~k felig t'ffoi g irt h N'if N la tit'e itlti shoulii t of cal.de ;ii te 1-lto (4hp bc-i~ lt' eci toalliitogt iiigt' maidixiiii~i ii it (iftert . FoiicC sINer fectix e friN1li 4 s ~ i NldIls sie tci is d 'i helpful t fiiier stiiii I ( fish cl'iaettalit 1 e II tle iwNt'ii fcit l be i illiliNd li tioll Nro tide ti l ii oltlli No N"tli t th iNit ieti l bingapplied to th tis ilii FixaNmiplien N lliit iO tloos aiid Nthrs itiii iit NImlli tallbil NtII.SiN toii ti r Wiri be dtemici'nd toi w ittiil ill ('tiilillfxiiiig efoii. nol I'idi is easil~ 1 ccltait'(''N ut tI hid i i i i ii I s itia p ittI' l Ilt fill iir FIG. 8. Fishery guard wilth a curiniata pc Prociiuodus sp. mnit ii ofg rttni Ii il 1 a i it ' N iiiNooN of (4 ititiide werte t'ffectMx iii ac li 1( thiN cooertiii) fIii. Alxii, spectial stuiesC eari ied oult Ili pondsiiiN iaxtii fiidicatioil o f tig li)NN anld tag4ginig ioriiv iTxi'liiti iihit titdv f\IdcI lit ks ii ( it ti itiirolt'. ib ill eC\C(llei t coiiditioi tii liggi ( could lht ciilt xxitl thiit biasketx. lliuxx iNI iiiii ioatiiii oif tisx tx pt' IN, 11't'tled Ito- iothiei coin incia kil illipili taut xpt'(it'x. Out' mtlithloItr cud- lectioltig aiy lomcIiiol' (I flit fto]. tiggrilw14I xx \Xtli it boit- niotiitetl clecti is'Nocitkt'. Iliixx txr t' asxuitible por)1table gren- citatiii 2):3ff x ltN AC NN\1it lftd ouitpuit of :3,0 ffff\x ttN ) hilN not lbeeii locaited Iii Hi a/il. Bectux of tlit imptoititice of xsioultd fe Iiide lix l)"'O(S tto imot i suoxitalelletiic ttor Fisherman Survey A lixlit'i iiii iiix~e t'x xx iiiiaft' to otaiiui xpt'cifit iluifina- titoi oii li ti hiuioniic xtotlix iif, i fjxhii, (4 iuiilx, filtiodx of pi tcexxiiig aintl listrilititii of ft'e citch, itout 1 tlit' xtattix of ft'e ulioiket thurili i xaiii xt i ii' t il ( l)'I t 'ii I Nell r i'i jifi'u~ ia huhl ix t'xxlt'iil loii lx iliitinii piii]Iiikil liii fishfliig coopilera- tixvtx and proose pu il x'l ic e oIi~tNuf ui ititr I oi iiotis lar gei x eN sets, aullit'i]), u'iuiiniit'it. lVixicuinicii ii c iiitei xiexxct xx itii 9 III, ci It i i liiilli~tiol I iii requeted Il it is Cifficlt il t' thi ie fish- ofi tis t\ fl shuldiit ciiiitflliclt d he conduiiiitctedi Ill ciiililii Itioti %\11 1)1 lcithiC s lll)]liw ofii th ilt isid station s. Species Introduction (Iriiis ti i)ott'itill. 1 eprodtitl c iteqifi neiiis, dli id ilitit o( C ield I oi sc\( ei il fish spie s. T his kooss iCd~i14i essetill loi- Cioosig spiesC fi- iiitiodliiiooi iiito rscrCi liri to ill citdsi priitiiiI h . It is \ ti likils thlit tile SuIccessfl ilitlil (oil tIoll f.i A15 erSIC ill ltreii p roilifit ii (\illtilliC 11Io1\\ niiiiket x ilie. S iA FIG. 9. The tncunare or peacock bass is normally taken with a pole and line bailed with freshwater sn, .rp or piabas. This species is Cichto tenensis. dcili it iiipllilthl iof tiuliliali il o tihei fisih nii nl itil s ill Amii tha ill l ii its the iitlull411iTi if ('5115 li It is i hocIt iiiii fisih, hii II 14 is 5111 s d ti toill fiesh, aid iCiii trili tcs si14 I ijCli it ois t\ii it il t til Th resultsi'f theseliii Iii c tto i 10 FIG. 10. Inc paickne or pit urucu Atapainoi qigos ho, been introduced int several reservoirs in ihe Noriheosi. Almost all of ihe larger individuals entering ihe coich are horpooned. tti Iillict t that tile tilCillic Ik a \e15 elfiC 011it lllli tat didC iicits eiii I ('o t thiiliootol I,8( toillwla ((0 iuo These1 arcal i s I fill Cltilit SO to 1 1oov 'ihi I is elilitltm- ti u 1 ltoIil I) pif t s perClS i tiie ol Iti ,illC~r 55 lii C ith iliCot ilt \%i"ICt iof otheIrii sies ht li l t liii il iiik iti iitit tte ilmiti) til hICCd hill 1 i sCili iillid l i liili tot ithe 1)11 1 i s ill I, ,I m II d p I I )isr 'I d I I f I Ii ilit loti I II H It' l)ittlti4 ot i tldi- kLt X(iw liiiiti AX it-'.iic2 huh liIX/1( iowgiC'tsto I)11 )I iI I })i Ii tolIit I Illslit \ in I iii. ixptuit l it al so ) (I s 2. \ ( 'li i l i ii larg pill t to il I111) lli 4jt\ tc is ofi Cot I (I i Ie h d l it' 4 XX l ilk ii i c litel i i tIk, i ,\li ll SI tX iltof ill tliitl gIiilt t\ ir tsct ti its ex ilt ti\X~c itit IiiX ight zed uing't iicXtXc i Itliids I lit'i citse the i i l i prcJti I9tt i of riesu ls stress id lt ltittiitld thu 1114tln i)X tof Oliiiil.l Itlilil tii tPIt o(itt'dl di 111 il ci it IX iri Pe'( I t dc XX li titiIld it-t til t1111)ltt FIC, 1 A g ad - c uII ccT Q l 1 P , 'i, c! c" ... PA"I at these tish appear to be in their second year. In Resernair Pereira dle Miranda this species vv;II reach an anerage length of 25.3 cm. (9.9 in.) in 1 year, 33.7 cm. (13.2 in.) in 2 years, and 44.8 cm. (16.5 in.) in 3 years. I'I's l i I Ittl I llc l) it I tI Xpc 'i' d i ir IX 1,1 po X il lis p. sill1 I iilit I iti lli (itll al i) m cooIl 1co osf c c \\ it' ii l'd l lilXl it oo ( th ilii s iki itI tis(i iiilre it i tiii 1 iotCis tl i vi ) , tcti i i (dl icti lt 41111 i iti Xi Ct 111(1 hut' plscliiii do pii itilii ACl ti wi it s (IItli IX i " i [I N i' ) IT t~l ilil Hdkuiagtit lolilIC ti Xli)tX 511s XillItits(,ncet C'XhIiotlX re- tihtig 11)011' Xtil ilptilu-e Cdl IItitt te used.~t LntiihX ut iilc tilbiltti l III ih ]loXI t l Xi il i ll XX itri iiitil it e IX I p I l C X t il t s l o l. X X I i t ' i ll l " f1 1 i h p ii 'i X t t i ls i s I ' i ttcm i l i i i 9 1 i ll l i td eItenlite ill iiiiiP'lli'Ir ~ P r iiit'iitclit tit' ti dilii I 17111tte\diliolt C llopC' lt i i li~tXe i C' sii(l. Iiop )11 iC tiltI ituii)i'ii of1 pI (1I lit 1-11 it 4 11 ('c t t i c t1 iti s I (il 11cil1 1\1 lit ,is it tX i illl t it ' Using the information gained from the tagging demonstra- tion of traira in Reservoir Forquillia, the total catch as re- ported by DNOCS, and the adjusted units of effort for gill nets, hooks, and thrust baskets, the surplus reproduction for this species was calculated. Actually, three levels of surplus production were calculated using adjusted and unadjusted rates of fishing mortality. When tag returns were adjusted for tag, loss and tagging mortality, the surplus production was calculated to be 30 per cent greater than the present average commercial catch, thus indicating that the population is be- ing harvested somewhat below the optimum rate. Obviously such studies are of considerable importance in determining the status of a fishery and in estimating potential yield. It is recommended that surplus production be de- termined for all commercially important species once esti- mates of fishing mortality are available. However, each estimate must be carefully interpreted in terms of the ac- curacy and precision of each factor entering into the compu- tation and the correctness of basic assumptions inherent to this method. PRESENT STATUS The actual impact of technical assistance in fisheries biology can best be evaluated in qualitative terms such as institutional growth and maturity and expansion of human skills. Ad- mittedly, a quantitative evaluation in terms of increased production of freshwater fish products would be more ap- propriate. However, a greater period of time is needed to adequately verify such indicators. For example, because of the variation in annual weight yield from reservoir fisheries, at least 8 to 10 years of information will be needed to verify a 10 per cent increase in yield. Expansion of Human Skills Up to the time the CONVENIO DPAN was formed, Bra- zilian biologists working in the Northeast had little formal training in fishery science. Their research efforts had been qualitative and descriptive rather than quantitative, resulting in information that was not readily transformed into man- agement policy. Thissituation has improved to the extent that counterpart biologists can plan and execute studies to gain specific in- formation. For example, DNOCS recently requested an im- mediate recommendation on whether the fishery of a large reservoir could be industrialized, i.e., the addition of large outboard motor boats and the construction of cold storage facilities. The proposed plan called for a relatively large cash expenditure and would require a substantial increase in catch of commercially important species to justify the costs. Whether such an increase in effort would cause an appreci- able decrease in catch per effort unit and eventually result in a reduced yield can best be answered by an understanding of the rates of growth, mortality, and recruitment for the in- dividual species concerned. However, the counterpart bi- ologists, having gained an appreciation for the principles of population dynamics, were able to use available catch and effort data to approximate the amount of fishing the resource could accept on a sustained basis. Long range plans developed: by counterpart biologists re- flect an increased appreciation for sampling and experimental error. In past studies, a small number of samples or insuffi- cient replication in an experiment often resulted in estimates of low precision and of questionable value. In this respect, their plans now give careful consideration to economy of effort and the resources available. Institutional Growth The CONVENIO DPAN is recognized by DNOC as an effective scientific institution capable of administering pro- grams in fish culture and fishery biology, and they have pledged continued support to this institution when USAID contributions cease. To ensure the continued development of CONVENIO DPAN and the fisheries project, the following recommendations are offered: 1. Additional academic training in the special field of population dynamics would be desirable. Such a program should include instruction in automatic data processing tech- niques so that returning participants can take advantage of Sthe computer time that is becoming increasingly available in the Fortaleza area. DNOCS should provide graduate degree scholarships for project personnel at the University of Sao Paulo Department of Biological Sciences, where such train- ing is possible. 2. It is essential that program personnel receive training in the special fields of fish diseases and parasites and fish nutrition. This training could be carried out in Brazil during a 3-week program by a team of two professors from the In- ternational Center for Aquaculture, Auburn University. An ideal location for this training would be the DNOCS Train- ing Center which is located less than a mile from the Pen- tecoste Fish Culture Research Station. Adequate facilities exist for 26 individuals, which would permit approximately 10 biologists from other government agencies to participate in the program. It is recommended that AID provide special training funds for this assistance upon the request of the Brazilian Government. 3. It is possible that individual projects within the CON- VENIO DPAN have their roles too narrowly defined. As a result, cooperation between projects, especially in sharing facilities and manpower, could be improved. In this respect it is recommended that the Director of the CONVENIO DPAN review the activities of each project to define areas of mutual interest where cooperation is possible. The result will be an institution much more effective in using available resources. 4. Although a library exists within the CONVENIO DPAN, it is not functional. No method exists for indexing the location of material or the deposition of items loaned. As a result, books and subscriptions obtained are largely unusable. Attempts to, organize the library in the past have been unsuccessful because individuals assigned the task were not qualified or were not hired on a permanent basis. It is therefore recommended that DNOCS hire a qualified librarian on a permanent basis to organize and expand the existing facility. Marketing and Distribution of Fish Products The marketing and participant training programs recom- mended in the report, "Short-Term Marketing Study of the Intensive: Freshwater Fisheries Development of Northeast Brazil," (6) were not implemented. In this report, the author described, the existing marketing and distribution systems as archaic and unsanitary. In 19.72 there has been no improve- ment in the system. Although this report was concerned with market development in conjunction with the develop- ment of intensive fish culture systems, the same ills affect the marketing and distribution of the commercial catch from 12 the reservoir fisheries. As a result, both projects would benefit from the findings of the study. Because the present marketing system is recognized to be a limiting factor to future development of the freshwater fishing industry of northeastern Brazil, it is recommended that action be taken to determine the market potential for handling, marketing, and distribution. If the Government of Brazil requests USAID technical assistance, suitable counter- part personnel could come from the newly formed graduate program in agricultural economics, School of Agronomy, Uni- versity of Ceara. The Government of Brazil could provide support through in-country training scholarships in fish mar- keting. CONCLUSIONS Technical assistance rendered under the Auburn University Brazil Contract, AID/csd-2270, Task Order No. 4, served to consolidate the results of previous assistance in fishery biology of reservoirs and to stress the importance of more ad- vanced methods of assessing fish stocks, of sampling, and of design and analysis of experiments. Obviously the form of advice required changes with advancements in institutional development and increasing human skills. In this case, in- puts provided were appropriate because of progress made under previous technical assistance in fishery biology. The freshwater fish stocks of northeastern Brazil are being moderately to heavily exploited. As a result, rather precise estimates of population parameters are required for devel- oping management policy. In tropical areas, fisheries are usually based on a number of species. However, in north- eastern Brazil the number of commercially important species in any one reservoir is not great, usually numbering between 3 and 8. The currently recommended approach is to analyze the data for each species separately, taking into account any interactions, and add the results together. However, as new species are introduced, this approach may prove to be un- workable. An alternate approach would be to treat the species complex as a unit and relate fishing effort to the com- bined catch of all species. The Brazilian counterpart biologists are well aware of these options. They now have the necessary technical skills and understanding to conduct basic studies on growth, mortality, and gear selection characteristics, and to use these data to determine management policy. Additional inputs into this project, such as scholarships for advanced graduate studies and equipment purchases, can and should be supplied by the Brazilian Government. To ensure the continued development of the CONVENIO DPAN and the fisheries biology project, additional AID in- puts are desirable. These are special training funds for a 3-week course in fish diseases and parasites and fish nutrition to be presented in Brazil, technical assistance for at least 1 year in the fields of fishery marketing and economics, and a once-a-year visit by a specialist in fish population dynamics to evaluate expected gains. CONFERENCES Brazilian Government DPAN Amaury Bezerra de Silva, Coordinator J. Jarbas Studart Gurgel, Assistant Coordinator Odilo Freire Dourado, Fisheries Biology Project Joao de Oliveira Chacon, Fisheries Biology Project Helio A. Rezende Melo, Limnology Project J. Afonso Mendes Agusto, Limnology Project J. Valdo Ferreira Freitas, Food Technology Project Cincinato Maciel Paiva, Assistant in Chemistry Pedro Alberto M. Pequeno, Laboratory Assistant Jose Anderson Fernandes, Fish Culture Project Antonio Carneiro Sobrinho, Fish Culture Project Edson Rodrigues Lira, Economist DNOCS Jose Lins de Albuquerque, General Director Osmar Fontenele, Director, Division of Fisheries and Fish Culture Raimundo Adhemar Braga, Director, Center of Ichthyolog- ical Research Jose Napoleao de Carvalho, Regional Director, Division of Fisheries and Fish Culture (Ceara) Edmundo de Albuquerque Duarte, Regional Director, Di- vision of Fisheries and Fish Culture (Pernambuco) Francisco Hilton Nepomuceno, Chief, Amanari Fish Hat- chery Francisco Ali-Bala Cabral, Chief, Lima Campos Fish Hat- chery SUDENE Paulo de Oliveira Burgo, Director, Division of Fishery Re- sources Jose Bento Pereira Barros, Biologist, Sururu Project Ramlson Freire, Biologist, Red Snapper Project Secretary of Agriculture, Fisheries Institute Jose Maria Barker Brownley, Director Helioladislau Stempeniewski, Interior Fisheries Project Jose Torres Rojas, Sector Development Project University of Sao Paulo, Institute of Biological Sciences Paulo Sawaya, Director Edison Pereira dos Santos, Fisheries Biologist Ford Foundation, Rio de Janeiro Eduardo L. Venezian, Program Assessor, Agriculture Private Industry Claudio Negrao, Ormnamental Fish Exporter, Belem and Manaus 13 LITERATURE CITED (1) DENDY, J. S., E. W. SHELL, AND E. E. PRATHER. 1966. Short term survey of Pereira de Miranda Reservoir and Amanari Fish Culture Station. USAID, Recife, Per- nambuco, Brazil. (2) DNOCS - UNIVERSIDADE DO CEARA. 1963. Pesca nos acudes publicos e sua commercializacao. Imprensa Universitaria do Ceara, Fortaleza, Ceara, Brazil. (3) DPAN. 1971. Relatorio Anual: Pesquisas de limnol- ogia. Convenio SUDENE/DNOCS/USAID-DPAN, Fortaleza, Ceara, Brazil. (4) DUQUE, J. G. 1953. Solo e agua no poligono das secas: Publicacao No. 154, Serie I-A. Departamento de Obras Contra as Secas, Servico Agro-Industrial, Fortaleza, Ceara, Brazil. (5) JEFFREY, N. B. 1972. Progress report on the develop- ment of fisheries in Northeast Brazil. I. Aquaculture. Auburn Univ. (Ala.) Agr. Exp. Sta. ICA R&D Series No. 1. (6) LINEHAN, J. F. 1967. Short term marketing study of the intensive freshwater fisheries development of North- east Brazil. USAID, Recife, Pernambuco, Brazil. (7) MAGNUSSON, H. W. 1971. End-of-tour report: Project No. 512-15-180-247.4, Fish production, processing and marketing in Northeast Brazil. USAID, Recife, Per- nambuco, Brazil. (8) REES, G. H. 1971. End-of-tour report: Project No. 512-15-180-247.4, Fish production, processing and mar- keting in Northeast Brazil. USAID, Recife, Pernam- buco, Brazil. (9) ROBOCK, S. H. 1964. The rural push for urbanization in Latin America: The case of Northeast Brazil. Oc- casional Paper No. 1, presented at the Symposium on Urbanization in Latin America - The Rural Setting, Michigan State University. (10) STEVENSON, W. 1968. End-of-tour report: Project No. 512-247.4-2-80197, Fish production, processing and marketing in Northeast Brazil. USAID, Recife, Per- nambuco, Brazil. APPENDIX FISH SPECIES COMMON TO RESERVOIRS OF NORTHEASTERN BRAZIL Common name Acclimated species Apaiari* Tucunare comum Tucunare pinima* Tilapia 0 Pescada do piaui* Pescada AMC* Piau verdadeiro Curimata pacu 0 Pirarucu Regional species Beiru 0 Piaba chata Piaba nao pintada Piabucu Piau comum' Curimata comum Traira 0 Pirambeba Piranha Sardinha Bodo Cangati* Guaru Moreia branca Moreia preta Mucu Timbiro Family Cichlidae Cichlidae Cichlidae Cichlidae Sciaenidae Sciaenidae Characidae Characidae Arapaimidae Characidae Characidae Characidae Characidae Characidae Characidae Characidae Characidae Characidae Poeciliidae Cobiidae Gobiidae Synbranchidae Engraulidae Species Astronotus ocellatus Cichla ocellaris C. temensis Tilavia rendalli Plagioscion squamosissimus P. surinamensis Leporinus sp. Prochilodus sp. Arapaima gigas Curimata sp. Astyanax sp. Hyphessobrycon paryellus Curimata elegans Leporinus friderici Prochilodus cearensis Hoplias malabaricus Serrasalmus sp. Serrasalmus sp. Triportheus angulatus Plecostomus plecostomus Trachycorystes galeatus Poecilia vivipara Awaous transadeanus Eleotris pisonis Synbranchus marmoratus Pterengraulis atherinoides * Indicates commercially important species. 14 rll I~Y CI~UI LL..