Life History Traits of Two Dwarf Cichlids Species in the White Waters of the Amazonian Floodplain

Life History Traits of Two Dwarf Cichlids Species in the White Waters of the Amazonian Floodplain

Environ Biol Fish DOI 10.1007/s10641-017-0660-8 Life history traits of two dwarf cichlids species in the white waters of the Amazonian floodplain Jomara Cavalcante de Oliveira & Helder Lima de Queiroz Received: 1 December 2016 /Accepted: 6 August 2017 # Springer Science+Business Media B.V. 2017 Abstract The reproductive parameters are among the Introduction most important life history aspects of fishes influenced by environmental variation. During recent years, the The reproductive parameters of tropical fish have been main life history strategies of Amazonian fish species broadly used in the definition of their main life history were defined mostly by a set of reproductive parameters. strategies (Winemiller 2005), not only for Amazonian In the present work, we sought to describe important life species living in different environments (Espírito-Santo history parameters, in particular on reproductive charac- et al. 2013), but also for fish species found at other teristics of Apistogramma agassizii and Apistogramma regions and latitudes (Mims and Olsen 2012). The in bitaeniata, found in floodplain lakes of the Brazilian depth understanding of the reproductive strategies of a Amazonia. The species presented a positive sexual di- given population provide important information on the morphism, and males were significantly bigger than relationships of that population and the local habitat. females. For both sexes, four developmental phase of Recently, studies on the reproductive biology of teleosts gonad maturation were detected, and based on those it have revealed a broad variety of strategies that many was possible to identify mature, reproductive specimens species evolved, as result of adaptations to abiotic fac- throughout the entire period of the study. From the tors, such as temperature, photoperiod, rainfall and ovaries of mature females, fecundity and spawning type floodings (Guerrero et al. 2009; Godinho et al. 2010; were determined. Low fecundity, short spawning pe- Prudente et al. 2014; Vanin et al. 2017). riods, possibly separated only by few months, and total Variations in the environmental conditions demand spawning are all good indications that A. agassizii and adjustments in the reproductive strategies of fishes, to A. bitaeniata evolved an opportunistic strategy in their increase reproductive efficiency (Wootton 1984). Based life history. on the pattern variations of mortality, and resource alocation in different life styles, three main types of life history strategies were proposed for neotropical fish Keywords Reproductive biology. Apistogramma . First species (Winemiller 1989; Winemiller and Rose 1992). maturity. Várzea lakes Such reproductive strategies, that can be generically described as (1) opportunistic, adopted by fish species of small body sizes, early sexual maturation, short life spam, low fecundity and partial spawning, (2) seasonal, found in species of intermediate body size, intermediate * : J. C. de Oliveira ( ) H. L. de Queiroz to high fecundity and total spawning, and (3) equilibri- Laboratory Ecology and Biology of Fishes, Instituto de Desenvolvimento Sustentável Mamirauá, Tefé-AM, Brazil um, comprising species of large body size, late sexual e-mail: [email protected] maturation, long life spam, high fecundity and partial Environ Biol Fish spawning. The triangular continuum model based on Materials and methods these three mais strategies can be associated with a gradient of intermediate strategies, adapted to a gradient Study site and sample collection of environmental conditions, considering environmental stability and stochastic disturbances, and fluctuations in Members of these two species of dwarf cichlids resource available to the fishes (Winemiller 2005). Life weresampledbimonthly,fromMarch2011toJan- history strategies can also predict when the local envi- uary 2012 at Aningal Lake, inside the Reserva de ronmental conditions will maximize the reproductive Desenvolvimento Sustentável Mamirauá (RDSM) success of local species (Winemiller 2005). (Fig. 1), a white water floodplain lake located at Studies on the reproductive biology of cichlids car- the Middle Solimões region, near the confluence ried out in várzea environment show a clear reproduc- of Solimões and Japurá Rivers. All RDSM water tive periodic cycle and the species, in general, synchro- bodies are part of the Solimões river floodplains nize the gonad development and sexual maturation with ecosystem, draining white waters, rich in sedi- those moments when conditions are more adequate to ments and nutrients, from the Andean foothills spawning, insemination, fry survival and offspring de- (Queiroz 2007). velopment (Crampton 2008; Louca et al. 2010;Pires In Aningal Lake, as the water level rises, it becomes et al. 2015; Rangel-Serpa and Torres 2015; Silva et al. useless to try sampling Apistogramma agassizii and 2015). In general, cichlids are expected to show na Apistogramma bitaeniata at the litter beds in the littoral equilibrium life history strategy, both for South Ameri- zone, but they were found in abundance at the root zone can (Winemiller 1989) and African cichlids (Winemiller of the floating vegetation. Therefore, sampling method- 2005; Duponchelle et al. 2008). However, small size ology had to be seasonally adapted to these conditions, cichlid species can aparently develop a more opportu- and during the low water season, we sampled these two nistic life history strategy (Winemiller 1989; Winemiller dwarf cichlid species using hand nets (rapichés), in and Rose 1992). active searches in the flooded litter of the littoral zone. In várzea environments, heavily seasonal, dwarf On the other hand, during the high water season we cichlids of genus Apistogramma, among the smallest sampled these fishes with the same hand nets, but at neotropical cichlids, live in the litter of shallow the root zone of the floating vegetation (Fig. 2). littoral zones of the water bodies. This is a seasonally-flooded environment, dominated by Am- azonian white waters, with sediments, high nutrient Sample processing contents and high productivity (Junk et al. 2015). In these water bodies, dwarf cichlids move as the water After collection, all specimens were preserved in level varies vertically. During the low water period, formalin 10% and taken to further analysis in the the fishes stay at the littoral zone, among the litter laboratory, where they were measured and weight- formed by dead leaves and dead vegetal matter. As ed. Total and standard lengths (mm) were mea- the water level rises, and the riparian forest flooded, sured with a digital caliper. All specimens were the fishes transfer to the root zone of the large dissected with an abdominal incision to visually aquatic macrophytes banks, formed during the confirm their sex and to establish the maturation flooding season (Petry et al. 2003). stages of their gonads. For the macroscopic analy- In the present study, we aimed to describe the sis of the gonads we adopted a previous classifi- reproductive biology of two dwarf cichlids species, cation system (Brown-Peterson et al. 2011). The Apistogramma agassizii (Steindachner 1875)and gonads were subjected to further microscopic anal- A. bitaeniata (Pellegrin 1936), living in a white ysis, to confirm macroscopic determination. Micro- water floodplain lake, and to unveil those reproduc- scopic analysis followed basic standard histological tive traits that might define their life history strat- techniques, where the samples were dehydrated egy. We expect that the highly seasonal effects on with increasing solutions of ethyl alcohol (70 to the environment and the small body size of these 100%), diafanized in xylol, placed in paraffin to species may play an important role in the definition allowcutsofslices5μm thick and stained with of their life history strategy. hematoxylin-eosin (H&E). Environ Biol Fish Fig. 1 Sampling sites for Apistogramma agassizii and Apistogramma bitaeniata in Aningal Lake, at Mamirauá Reserve (RDSM) Data analysis length. We performed all analysis with BIOESTAT 5.0 statistic package (Ayres et al. 2007). Size structure for both species in each environment was The relationship between standard length and to- based on the frequency distribution of standard length tal weight was established by a non-linear regression b classes, considering each sex separately. We established represented by TW =axSL (where TW =total class width using Sturges’ rule (Sturges 1926), or h = R/ weight, SL = standard, a = linear coefficient; b = an- K (where h = class width; R = total range of data; gular coefficient) and adjusted by the least-squares K = (1 + 3.222 x (log n)), and n is the sample size). In method. Male and female linear and angular coeffi- order to identify significant differences between the cients were compared by the Student’sttest(Zar sexes, we applied the Bttest^, to a 5% contingence level, 2009). We used the G test, with a 5% significance to the frequency distribution of the classes of standard level, to evaluate sex ratios bimonthly. Fig. 2 Sampling sites, showing the littoral zone floodplain during the (a)dryseasonand(b) formation of floating vegetation during flood season Environ Biol Fish The reproductive period was determined based on the no significant differences between males and females of frequency distribution of mature stages of the gonads, A. agassizii. On the other hand, significant differences and by the variation of the average values of were observed in those coefficients between males and gonadossomatic

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