Diet and reproduction of Bryconamericus caucanus (Characiformes: Characidae) in the Venada Creek, Quindío River, Colombia. Dieta y reproducción de Bryconamericus caucanus (Characiformes: Characidae) en la Quebrada La Venada, Río Quindío, Colombia

Objectives: The reproductive and trophic ecology of Bryconamericus caucanus was analyzed in la Venada creek, Quindío river, Alto Cauca, Colombia. Materials and methods. Individuals were collected between January and December 2013. Multivariate analyses were performed to compare the trophic characteristics of the species between climatic periods (wet and dry), sexes, and sexual maturity (juvenile and adults). We also analyzed the condition factor (K) and the numerical (%N), volumetric (%V), and frequency (%Fo) percentages for each prey. We tested for deviations in the sex proportion using chi-squared tests and we also estimated the Gonodosomatic Index (GSI) and absolute fecundity (Fa). Results. A total of 162 individuals (SL: 40-75 mm) were here analyzed. B. caucanus is an insectivorous fish (86.47% IRI) that mainly feeds on the orders Ephemeroptera (Baetidae; 27.71%), Hymenoptera (Formicidae; 23.57%), Diptera (Simuliidae 17.36%; Chironomidae 9.79%), and Trichoptera (Hydropsychidae; 8.04). Multivariate analyses showed differences between climatic periods, with the lowest richness occurring during dry season. Between sexes, females showed the widest trophic niche. Adults, on the other hand, showed a wider trophic niche than juveniles. The species has two reproductive peaks during rainy seasons which are also related to the increase in the trophic richness during the same periods (March-April, September-November). Conclusions. We found that B. caucanus has an incipient trophic differentiation between ontogenic stages and sexes. Trophic differences are remarkable between climatic periods. The two spawning periods for the species occur during the beginning of the wet seasons (March-April, September-November).


INTRODUCTION
Characidae is the most diverse fish family within the order Characiformes (1,2).Among these, the genus Bryconamericus, with more than 80 species, groups small fish that form schools and feed on invertebrates and particles suspended in the water column (2).Because the food that fulfill these characteristics are so abundant, Bryconamericus species have developed multiple trophic strategies that have allowed the syntopy with other groups within their geographical range (3).
The study of trophic habits of fish through the analysis of stomach content is a tool that provides direct information on important aspects of the natural history of the species (4).To know what a species consumes give insights on both the behavioral patterns of the species and its position in the trophic web (5)(6)(7)(8).Likewise, to understand the trophic interactions of predators is crucial to develop conservation and strategies for sustainable management (9).Currently, seven species of Bryconamericus have been described from the Cauca-Magdalena River basin in Colombia (10,11).There are, however, few studies that provide ecological information on their conservation status.In fact, data on habitat, diet and reproduction are only available for B. caucanus, which has a wide distribution in the Cauca-Magdalena and Sinú river basins (10,12,13, see discussion).Specifically on the reproduction of Bryconamericus species there are studies by Román-Valencia & Muñoz (14) for B. galvisi, observations by Kramer (15) on B. emperor, Flecker et al (16) and Taphorn (17) for B. cismontanus and B. alpha, in addition to Román-Valencia & Muñoz (12) for B. caucanus (see discussion).This work analyzes the diet and reproduction of B. caucanus La Venada creek, Río Quindío, Alto Río Cauca, in the Central Andes of Colombia.
En este trabajo se pretende analizar la dieta y reproducción de B. caucanus en la quebrada La Venada, Quindío, Alto Río Cauca, en los Andes Centrales de Colombia.En particular, se suministra información básica que permita la conservación tanto de la especie como de su hábitat.Se considera en especial el impacto de la agricultura exhaustiva, la construcción de hidroeléctricas en áreas adyacentes y el desarrollo de planes de minería exhaustiva en los Andes de Colombia.
La quebrada La Venada es fuente de agua para mas de 500 habitantes del corregimiento Negra del municipio de Calarcá y fincas aledañas In particular, we provide basic information is provided that allows the conservation of both the species and its habitat.The impact of exhaustive agriculture, the construction of hydroelectric power plantsplants in adjacent areas and the development of exhaustive mining plans in the Andes of Colombia are considered.
Se asume que los picos explican periodos de elevada actividad reproductiva en la especie.La talla media de madurez sexual se calculó a partir del método gráfico como Ls 50%, es decir, la talla en la cual el 50% de los individuos de la población son sexualmente maduros.Los criterios para definir el estadio de madurez gonádica han and intensive farming activities, which involves the direct or indirect discharge (e.g., run-off) of toxic agrochemicals into the creek.The social and economic context in which this creek is immersed is quite hostile and rough so the survival of fish populations, macroinvertebrates and other organisms that coexist there have been significantly affected.Additional data on the physical-chemical characteristics of the La Venada stream has been previously reported in Román-P et al (19) for the years 2011-2012.
Data collection: Monthly, between January and December 2013, specimens of B. caucanus were captured using trawl net of 2m × 0.5m and a 0.5cm eye mesh.To delay the enzymatic degradation of the stomach contents, fishes were preserved in situ in a polyethylene box with ice and transported immediately to the Ichthyology Laboratory at the Universidad del Quindío, Armenia, Colombia (UQ).Specimens were deposited in the scientific collection of the same institution (IUQ).
In the laboratory, uroventral dissections were performed for the extraction of the digestive tract (stomach, pyloric blind gut and intestine) and reproductive structures.Biometric measurements were taken using a Mitutoyo calibrator (± 0.01 mm).The total length (LT), standard length (LS), of the digestive tract were also recorded, in addition to the length of the intestine (Li), length of the stomach (Le), and width (Ae).The total weight of each specimen, gonads and stomach were also registered using an Adventurer-Ohaus H226 scale (± 0.0001 g).

Reproduction:
The ratio between the sexes in the population compared to the ratio of an expected ideal population (1:1) was evaluated by applying a chi-square test (X 2 ).
The Gonadosomatic index (IGS) was used to analyze the temporal variation according to sex during the sampling period.According to Vazzoler (20), the IGS is defined as IGS = (W g /WC) x100, where, Wg represents the weight of the gonad and Wc the weight of the body.
It is assumed that the peaks explain periods of high reproductive activity in the species.The average size of sexual maturity was calculated from the graphic method as Ls 50%, that is, the size at which 50% of the individuals of the population are sexually mature.The criteria to define the stage of gonadal maturity has been previously described by Vazzoler (20) and Román-Valencia (21).
The fecundity and the diameter of oocytes were determined through the dry subsample method (22).The equation Fa = Σn°/N° was followed, where n° is the number of oocytes per gravid female and N° the total number of females.The average diameter of the oocytes was calculated using a millimeter sheet.This method has been previously described in detail by Morales and Garcia-Alzate (23).
The condition factor (K) was calculated to evaluate the feeding condition and the energy reserves of the species.The equation K =Wt*10 5 / LS 3 is applied.Where: Wt corresponds to the total weight of the sample and LS to the standard length.

Digestive tract morphology:
The biometric variables recorded were analyzed using linear correlations using the cor function in statistical package R. Linear association between pairs of variables with significant correlation coefficients greater than 70% (r> 0.7) was assumed.The quotient standard length (Ls) / intestine length (Li) was estimated as an initial approximation to the trophic habits of the species.
Trophic structure: The representativeness of the samplings was estimated using a randomized accumulation curve of the prey or food items compared to the number of sampled stomachs.This analysis was performed in estimateS version 8.2 (24).Chao I and II were used as richness estimators.Our results are specifically based on Chao II because it is a less to small samples.This analysis assumes that the increase in the size of the sample (i.e.number of stomachs) generates a decrease in the trophic richness variance.The curve therefore tends to an asymptote consequence of the less frequent appearance of new prey.All prey were identified to the lowest possible taxonomic category using dichotomous keys.
Once the food items were determined, the numerical importance of each prey was estimated using the numerical percentages (% N) defined as: (ni / Np) * 100.Where ni is the total number of representatives of prey i; Np is the total number of prey consumed.The volumetric percentages (%V) and frequency of occurrence (% Fo) were also estimated.The volume of each item was approximated to an ovoid spheroid (19).Each of these measures explains different aspects of the trophic habits of a taxon.Abundance is informational according to feeding behavior.The occurrence includes the trophic strategy at the population level and the volume reflects the nutritional value of the prey (8).
A more exhaustive analysis of these three indexes at a populational level was done the sido previamente descritos en Vazzoler (20) y Román-Valencia (21).
Se calculó el factor de condición (K) para evaluar la condición de alimentación y las reservas energéticas de la especie se aplica la ecuación K=W t *10 5 /LS 3 .En esta, W t corresponde al peso total del ejemplar y LS a la longitud estándar.
A Principal Components Analysis (PCA) was performed based on transformed volumetric values using log (x+1).This approach to the characteristics of the trophic niche was made for the following groups: weather season (low and high rainfall), sex (males and females) and stage of development (juveniles and adults).Statistical differences were evaluated between the groups (time, sex and stage) by applying a non-parametric multivariate analysis of variance (i.e.PERMANOVA) implemented in the vegan statistical package (27) under the adonis2 function.Finally, the niche amplitude values were estimated for each group and the overlap between pairs was compared, using in both cases the Levins index implemented in the spaa package (28).

RESULTS
Reproduction.A total of 162 specimens were captured (13.5 individuals / month).Among these, 73 were females, 69 males and 20 were immature.The sex percentages did not show statistical differences (X 2 = 0.072, gl = 1, p = 0.3).However, there was a slight predominance of females in the population (1.05 females: 1 males).In total, 21 mature females were registered during the sampling.The values of Gonadosomatic index for them varied between 0.2 and 2.6.Likewise, females also showed higher values in the gonadosomatic index throughout the sampling months, except in May and between December and January, where they were lower than the records for males (Figure 2).The maximum for females were registered during both rainy periods (March-April and September to November).Spawning periods are inferred for the months following the IGS peaks.The males exhibited consistently low IGS values compared to the females.However, throughout the year, some maximum precede the equivalents in females (e.g., February and August).Males had a lower average size at sexual maturity (LS50% = 56.11mm) than females (59.1 mm, Figure 3).A sexual maturation size for the population of 58.0 mm of standard length was estimated.
Fecundity and diameter of oocytes.The mean absolute fertility (Fa) was 1.252 oocytes (±768, n=21).Gravid females presented a maximum of 3.864 and a minimum of 314 oocytes per female.The average diameter of the mature oocytes was 0.60 mm (±0.005).

Condition factor (K).
The condition factor varied noticeably during the sampling.Females and males presented similar trends in the index during the first months, but after August, they became evidently dissimilar (Figure 4).It is suggested that this may be an annual pattern for the initial (first months) and terminal (last months) form of the graph.con relación a las hembras.Sin embargo, durante el transcurso del año, algunos máximos anteceden a los equivalentes en hembras durante (e.g.febrero y agosto).Los machos presentaron una menor talla media de madurez sexual (LS50%= 56.11 mm) que las hembras (59.1 mm; Figura 3).Se estimó además una talla de maduración sexual para la población de 58.0 mm de longitud estándar.

Factor de condición (K).
El factor de condición varió notoriamente durante el transcurso de los muestreos.Hembras y machos presentaron tendencias similares en el índice durante los primeros meses, pero a partir de agosto se hicieron marcadamente disimiles (Figura 4).Se sugiere que este puede ser un patrón anual por la forma inicial (primeros meses) y terminal (últimos meses) de la gráfica.Los machos mostraron valores inferiores respecto a las hembras durante la mayor parte de los muestreos (excepto en marzo).Las hembras exhibieron los mayores valores del factor de condición en coincidencia con los máximos del IGS.Por último, es evidente una disminución de los valores del índice K durante la época seca.The diet of B. caucanus is mostly represented by baetids (% N = 16.89,%V = 13.7 and% Fo = 18.75) and formicids (% N = 15.56,%V = 14.17 and% Fo=16.41).Both items showed the maximum values in the trophic descriptors considered (i.e.volume, abundance and frequency, Figure 6).The remaining prey were considered rare because they are closer to the origin of the three axes in Figure 6.These prey also have the lowest abundance, volume and frequency values compared to the remaining items.The greatest contribution in the abundance of prey was contributed by baetids.On the contrary, chironomids have a greater volumetric contribution than in abundance.In this sense, their consumption is restricted in terms of volume and not by the amount of individuals ingested.
Males presented a higher numerical consumption of apids, chironomids, simuliids, plant material and anisopters.Females exhibited a more homogeneous trend in the distribution of the volume of prey in the diet, with maximum for hydropsichyds, formicids, diplopods and baetids.The amplitude analysis for trophic niche revealed a greater volumetric exploitation on different items by males (females: 6.99, males: 9.53).The overlapping of trophic niche between sexes was 0.709 according to the Levine index (0.509-0.922 bst).No statistical differences were detected between the groups (PERMANOVA: F = 0.9487, p = 0.453).
A lower trophic amplitude during the dry season was found compared to all the food items found during the rainy season (Figure 7).These differences are statistically supported (PERMANOVA: F = 2.2998, p = 0.022).During rainy periods, B. caucanus explores new items that become more abundant in the stream (e.g.Formicidae, Hydropsichidae, Chironomidae).The Levins index supports this pattern (drought: 6.75, rains: 10.22) and also suggests the lowest value of overlap between periods in relation to sex and stage of maturity (0.66, 0.4-0.89bst).

DISCUSSION
This work describes the trophic and reproductive characteristics of Bryconamericus caucanus in the La Venada creek affluent of the Quindío  Bryconamericus caucanus is a predominantly insectivorous fish.This species mainly preys on ephemeroptera, trichoptera, larvae of diptera and ants that fall on the water surface.Although there are differential trends in the capture of prey in relation to sex, no statistical support was found for variable.Females however, consume a more restricted trophic spectrum than males.A similar pattern is evident for juveniles and adults.Adult stages consume a greater variety of prey, which is a reflection of both morphological characteristics (e.g.oral diameter), as well as behavioral aspects.
On the other hand, seasonality has a notorious impact on the composition of the diet in the species.
During periods of high rainfall, B. caucanus has access to resources that are scarce during the drought period.The trophic overlap between climatic periods is therefore, less than between sexes or stages of maturation, which is related to the novel appearance or the accelerated increase (in terms of volume) of specific prey available in the stream.In this sense, the volumetric contribution of prey such as ants and chironomids dominates the difference between weather periods.
The reproductive characteristics of the species are similar to the data previously reported for species of the same genus (12,13,29).The spawning periods established here for B. caucanus coincide in general with those reported for the species in the Upper Cauca.Periods of high reproductive activity occur twice a year during the beginning of the rainy periods (i.e.May-June and September-October).On the other hand, the IGS and K values suggest that during the reproductive period, this species tends to feed more than in other months.
It is also evident that there is a greater feeding frequency during the beginning of this phase derived from the similarity between the peaks of the gonadosomatic index (IGS) and the condition factor (K). meses.Es evidente también mayor frecuencia de alimentación durante el inicio de esta fase derivada de la similitud entre los picos del índice gonadosomatico (IGS) y el factor de condición (K).Si se relaciona la información reproductiva con los datos tróficos, se encuentra que las presas con mayor representatividad volumétrica durante periodos de lluvias (e.g.chironomidos, hormigas) contribuyen de forma significativa a la ganancia nutricional de los individuos (29).

Figure 2 .
Figure 2. Variation of the gonadosomatic index by sex of Bryconamericus caucanus along an annual cycle in the La Venada creek, Quindío River, Alto Cauca, Colombia.

Figure 3 .
Figure 3. Size of first sexual maturity for the studied population of Bryconamericus caucanus in La Venada creek, Quindío River, Alto Cauca, Colombia.February -December 2013, January 2014.Ls: Standard length; M: males; F: Females and P: Population

Figure 6 .
Figure 6.Three-dimensional dispersion diagram for the indices of items consumed by Bryconamericus caucanus at La Venada creek, Quindío River, Alto Cauca, Colombia.

Figure 7 .
Figure 7. Principal component analysis for the diet of Bryconamericus caucanus in La Venada Creek, Quindío River, Alto Cauca.Three different types of groupings are shown based on sex (above), stage of maturity (medium) and time of collection (below).Stones and scales are excluded from the graph.H: Females, M: Males, L: Rains, S: Drought.
Román-P et al -Diet and reproduction of Bryconamericus caucanusThe males showed lower values compared to the females during most of the samplings (except in March).The females exhibited the highest values of condition factor in coincidence with the maximums for IGS.Finally, a decrease in the K-index values during the dry season is evident.

Table 1 .
B. caucanus diet during the sampling seasons.% N = numerical percentage, % V = volumetric percentage,% Fo = percentage of frequency of occurrence,% IRI = food importance index percentage value.Stone items (Fo = 77.1%)are excluded from the analysis because they do not represent nutritional value in the diet of the species.Nematodes are included even though they are common parasites of Characids in the Neotropics (12,13,29)arcá, Quindío, Colombia.Information on dietary and reproduction aspects for species of the genus Bryconamericus have been previously published by Román-Valencia and Muñoz (14) for B. galvisi,Taphorn (17)for B. cismontanus and B. alpha.There are three previous works focused on describing the diet of B. caucanus(12,13,29).