© The Authors, 2023, Published by the Universidad del Zulia
*Corresponding author: ymendezm@uteq.edu.ec
Yuniel Méndez-Martínez
1
Estefanía Gabriela Pallo-Molina
1
Angel Oliverio Fernández-Escobar
2
Diana Lucia Vasco-Mora
1
Rev. Fac. Agron. (LUZ). 2023, 40(2): e234011
ISSN 2477-9407
DOI: https://doi.org/10.47280/RevFacAgron(LUZ).v40.n2.01
Animal Production
Associate editor: Dra. Rosa Razz
University of Zulia, Faculty of Agronomy
Bolivarian Republic of Venezuela
Keywords:
Gonadal index
Glucose
Body weight
Proteins
Triglycerides
Comparative study of biological and metabolic indicators in males and females Pseudocurimata
boulengeri of lotic ecosystems
Estudio comparativo de indicadores biológicos y metabólicos en machos y hembras de Pseudocurimata
boulengeri de ecosistemas lóticos
Estudo comparativo de indicadores biológicos e metabólicos em machos e fêmeas de Pseudocurimata
boulengeri de ecossistemas lóticos.
1
Facultad de Ciencias Pecuarias y Biológicas, Universidad
Técnica Estatal de Quevedo (UTEQ), Quevedo, Los Ríos,
Ecuador.
2
Facultad de Ciencias de la Industria y Producción,
Universidad Técnica Estatal de Quevedo (UTEQ), Quevedo,
Los Ríos, Ecuador.
Received:
07-11-2022
Accepted: 01-03-2023
Published: 17-03-2023
Abstract
With the objective of evaluating dierent biological and metabolic
indicators in males and females Pseudocurimata boulengeri in three
ecosystems of Los Ríos, Ecuador, specimens were captured in the areas of
Ventana, Quevedo and Buena Fe (60 per area, 180 total), and proceeded
to perform the sexing. The following were determined: size, weight,
thickness of the head, trunk and tail, as well as the size-weight relationship.
Stomasomatic, gonadal, hepatosomatic, vicerosomatic indices and condition
factor. Glucose, total protein, cholesterol and triglyceride were also evaluated.
A 3×2 factorial arrangement was used. Regression analysis to establish the
functional relationship between length and weight. For the morphometric
indicators, dierences between interactions were shown, although higher
values were observed in females regardless of the locality, with a weight
of 185 g, a length of 23.43 cm and head thickness that exceeded 6 cm. The
biological indices reected dierences between the interactions, thus the
hepatosomatic, gonadal, and vicerosomatic indexes were higher for females
in the locality of Ventanas with 0.97, 12.76, and 20.04, respectively. For the
metabolic indicators, dierences were shown between the interactions with
greater variability for sex. It was shown that for the morphometric indicators,
sex did not prevail. The biological indices were inuenced by sex, with
superiority for females except the stomasomatic. While metabolic indicators
showed variability with respect to areas and sex.
This scientic publication in digital format is a continuation of the Printed Review: Legal Deposit pp 196802ZU42, ISSN 0378-7818.
Rev. Fac. Agron. (LUZ). 2023, 40(2): e234011. Abril-Junio. ISSN 2477-9408.2-7 |
Resumen
Con el objetivo de evaluar diferentes indicadores biológicos y
metabólicos en machos y hembras de Pseudocurimata boulengeri
en tres ecosistemas de Los Ríos, Ecuador, se capturaron ejemplares
en las zonas de Ventana, Quevedo y Buena Fe (60 por zona, 180
total), y se procedió a realizar el sexado. Se determinaron: talla, peso,
grosor de la cabeza, tronco y cola, la relación talla-peso; así como los
índices estomasomático, gonádico, hepatosomático, vicerosomático
y el factor de condición. También se evaluó la glucosa, proteínas
totales, colesterol y triglicérido. Se empleó un arreglo factorial
3×2. Para los índicadores moformétricos se mostraron diferencias
entre las interacciones, aunque se apreciaron valores superiores en
las hembras independientemente de la localidad, con peso de 185 g,
talla de 23,43 cm y grosos de la cabeza que superó los 6 cm. Los
índices biológicos reejaron diferencias entre las interacciones, así
los índices hepatosomático, gonádico y vicerosomático fue superior
para las hembras en la localidad de Ventanas con 0,97; 12,76 y 20,04,
respectivamente. Para los indicadores metabólicos se mostraron
diferencias entre las interacciones con una mayor variabilidad para
el sexo. Se demostró que para los indicadores morfométricos no
prevaleció el sexo. Los índices biológicos se vieron inuenciados por
el sexo, con superioridad para las hembras excepto el estomasomático.
Mientras que en indicadores metabólicos mostraron variabilidad con
respecto a las zonas y al sexo.
Palabras clave: índice gonádico, glucosa, peso vivo, proteínas,
triglicéridos.
Resumo
A m de avaliar diferentes indicadores biológicos e metabólicos em
machos e fêmeas de Pseudocurimata boulengeri em três ecossistemas
de Los Ríos, Equador, espécimes foram capturados nas áreas de
Ventana, Quevedo e Buena Fe (60 por área, 180 no total), e procedeu-
se a realizar a sexagem. Foram estudados: tamanho, peso, espessura
da cabeça, tronco e cauda, bem como a relação tamanho-peso. Índices
estomasomáticos, gonadais, hepatossomáticos, vice-somáticos e
fator de condição. Glicose, proteína total, colesterol e triglicerídeos
também foram avaliados. Utilizou-se o delineamento casualizado com
arranjo fatorial 3×2. Para os indicadores morfométricos, mostraram-
se diferenças entre as interações, embora tenham sido observados
valores mais elevados nas fêmeas independentemente da localidade,
com peso de 185 g, altura de 23,43 cm e espessura da cabeça superior
a 6 cm. Os índices biológicos reetiram diferenças entre os interações,
assim os índices hepatossomático, gonadal e vice-somático foram
maiores para as fêmeas na localidade de Ventanas com 0,97; 12,76 e
20,04, respectivamente. Para os indicadores metabólicos, mostraram-
se diferenças entre os interações com maior variabilidade para o
sexo. Foi demonstrado que para os indicadores morfométricos, o
sexo não prevaleceu. Os biológicos foram inuenciados pelo sexo,
com superioridade para o sexo feminino, exceto os estomasomáticos.
Enquanto a indicadores metabólicos apresentou variabilidade com
relação a áreas e sexo.
Palavras-chave: índice gonadal, glicose, peso vivo, proteínas,
triglicerídeos.
Introduction
Aquaculture emerged as a practice for supplying proteins of
high biological value to low-income rural families, who used the
existing resources in the ecosystem (Ahmadniaye-Motlagh et al.,
2020; Méndez-Martínez et al., 2021). However, regardless of the
importance of native species in many regions, specically those of
Ecuador, many of these are threatened, which causes vulnerability
in ecosystems and associated rural populations (Méndez-Martínez et
al., 2022a).
In recent years, various investigations have been carried out on
many of the native species existing in the ecosystems of Ecuador
(Escanta and Jiménez-Prado, 2019). However, the literature refers
to the need for these to be more specic, with the aim of knowing
more eectively the behavior of these aquaculture species that live
in these ecological niches in the region. This will make it possible
to act more precisely on ecosystems, with the aim of preserving and
conserving them, which would lead to sustainable and human-friendly
development (Súarez and Petrere, 2007). Thus, one of the species that
inhabits these niches is the dica (Pseudocurimata boulengeri), which
is endemic to Ecuador and belongs to the Curimatiadae family. It is
characterize for being a sh that is widely accept by consumers due
to its appetizing avor and supports an important group of shing
families (Chicaiza and Flores, 2016).
On the other hand, the eco systemic value that these species
represent for human health and the environment is in antagonism
with the decrease in natural stocks, caused among other aspects by
overshing (Hilborn et al., 2020), which brings with it the reduction of
biologically sustainable populations. Thus, it is argued that about 13%
of the world population whose livelihood depends on inland capture
sheries is at risk of survival (Méndez-Martínez et al., 2022c). To the
above described must be added the impact caused by environmental
deterioration and the fragility of ecosystems due to the replacement
of native species by those introduced from foreign countries
(FAO, 2020). In addition, it is vital to improve knowledge about
biological and metabolic aspects that allow appropriate management
technologies for these species. Especially the second, since specic
studies on indicators such as triglyceride, cholesterol, glucose
and total proteins in plasma can provide more precise information
on the physiological state of the sh (Erhunmwunse and Ainerua,
2013). This will undoubtedly allow man to act more eectively in
ecosystems, and therefore improve the relationship with them (Defeo
and Vasconcellos, 2020). Therefore, to evaluate dierent biological
and metabolic indicators of the sh Pseudocurimata boulengeriin
three lotic ecosystems in the province of Los Ríos, Ecuador was the
objective of this work.
Materials and methods
Location
The present investigation was carried out in three areas of the
province of Los Ríos, in the waters of rivers that cross the cantons of
Buena Fe and Quevedo, as well as the river that crosses the canton of
Ventanas. The sh were captured in the three sites mentioned, which
have the following weather conditions in table 1.
This scientic publication in digital format is a continuation of the Printed Review: Legal Deposit pp 196802ZU42, ISSN 0378-7818.
Méndez-Martínez et al. Rev. Fac. Agron. (LUZ). 2023 40(2): e2340113-7 |
Table 1. Approximate meteorological conditions of the cantons
of Ventanas, Quevedo and Buena Fe.
Data
Average values
Ventanas Quevedo Buena Fe
Geographical
coordinates
10°31’41 S
79°027´36’’ W
1°01′43 S
79°27´W
0° 53’ S
79°29´ W
RH 86.00 80.84 82.90
Temperature
Average
27.00 °C 26.47 °C 24.40 °C
Height Average 570 masl 74 masl 100 masl
Annual
precipitation
3071.26 mm 2,223.85 mm 2,000 mm
Heliophany 626 h.L
-1
898.66 h.L
-1
638.8 h.L
-1
Ecological zone
Tropical semi-
humid forest
Tropical semi-
humid forest
Tropical semi-
humid forest
The study was carried out in accordance with the Standard
Operating Procedures (SOP) for the use of experimental animals,
established by the protocols and procedures for animal care of
State Technical University of Quevedo.
Experimental procedure
For this research, 3×2 factorial arrangement was used. The
interactions are described depending on the location and sex:
Females/Ventanas (1/V), Males/Ventanas (2/V), Females/Quevedo
(1/Q), Males/Quevedo (2/Q), Females/Buena Fe (1/B), Males /Buena
Fe (2/B). Ten samples of elds were carried out between the months
of November 2019 and April 2020. This stage constitutes the season
of greatest rainfall in the province for animal care of State Technical
University of Quevedo. 60 specimens were captured with shing
nets for each area (180 total), and sexing was carried out taking into
account the morphological characteristics (Nugra et al., 2018).
Water indicators
Control of physical-chemical parameters on the water was carried
out, the temperature was measured with a mercury thermometer (0 to
50 ºC), and the Nitrate (N0
3
), nitrite (NO
2
), ammonium (NH
4
), pH and
hardness with the colorimetric kit (Saltwater Master Test, OH, USA),
respectively (Méndez-Martínez et al., 2021).
Morphometry and biological indices
The variables or morphometric indicators were studied, such as:
size, weight, thickness of the head, thickness of the trunk, thickness
of the tail and size-weight relationship. The weight of the animals
was carried out individually with a digital balance of precision ± 0.01
g (PE 3600 Mettler-Toledo, Columbus, Ohio, USA), the length was
determined with the help of a tape measure (Truper, 3m-Fh, Distrito
Federal, MX), measuring from the tip of the mouth to the end of the
tail. To measure the width of the head, body and tail, a digital vernier
caliper (GT-MA15 Gester, ± 0.001 mm, Xiamen, CN) was used.
The Condition Factor is determined through the following formula
(Moreno et al., 2019):
• Condition Factor = (body weight / total length
3
) x 100
The animals were dissected according to Holden and Raitt (1975).
The following indexes were calculated:
• Hepatosomatic index = (liver weight / total weight) x 100
• Stomasomatic index = (stomach weight / total weight) x100
• Gonadic index = (gonad weight / total weight) x100
• Vicerosomatic index= (visceral weight / total weight) x100
Metabolic indicators (blood biochemistry)
One mL of blood was extracted by puncture of the caudal artery
at the level of the hemal arch, using 3 mL disposable syringes (Bio-
In, Guayaquil, EC), which were placed in capillary tubes (Isolab,
Laborgeräte GmbH, Eschau, DE) with heparinized inner surface, then
centrifuged (Gemmy, PLC-05, Taipei, TW) at 1200 rpm for 10 min to
obtain blood plasma in order to after performing the biochemical tests
for total proteins, glucose, cholesterol and triglycerides (Méndez-
Martínez et al., 2021, 2022b), reagents (Liquicolor, Wiesbaden, DE)
were subsequently applied, respectively, and allowed to incubate for
10 min for total proteins and 25 min for the others at 37
o
C, respectively
(Trinder, 1969). Readings were made in a spectrophotometer
(SunostIk, SBA-733 Plus, Kunshan Road, CHN) at ABS: 456 nm
for total proteins,510 nm for glucose, 500 nm for cholesterol and
triglycerides, respectively. The analyzes were carried out in triplicate.
Statistical analysis
The Bartletttest was performed to determine the homogeneity of
the variances and the Kolmogorov - Smirnov test to verify the normal
distribution of the data. An analysis of variance was performed
depending on the established design and the means were compared
with the Newman Keuls multiple range test (p<0.05). The data in
percentages were transformed through the square root of the arcsine,
only for statistical processing.
Linear regression models were used to establish the functional
relationship between length and weight. Data processing was
performed with the help of SPSS v22 statistical software. Data results
will be presented as means ± standard error (SE).
Results and discussion
The results of the water indicators in the three lotic ecosystems
showed adequate conditions for the growth and development of the
sh (table 2). Fish can live in a wide range of temperatures, however
the immune system does not work the same in all of them, logically, the
optimal ones are the best. The increase of 1 °C increases metabolism
by 15 %, aecting feed eciency (Volko and Rønnestad, 2020;
Méndez-Martínez et al., 2021). What brings with it alterations in
metabolic indicators.
Furthermore, the oxygen requirement of aquatic beings increases
as temperatures rise. Sudden changes in temperature, whether hotter
or colder, are often detrimental (Súarez and Petrere, 2007). The
suitable temperature is around 25 °C. Although there are also studies
that argue that the best of all is that the water is at 27 °C for raising
sh (Ayazo et al., 2018).
Ethical statement
This scientic publication in digital format is a continuation of the Printed Review: Legal Deposit pp 196802ZU42, ISSN 0378-7818.
Rev. Fac. Agron. (LUZ). 2023, 40(2): e234011. Abril-Junio. ISSN 2477-9408.4-7 |
Table 2. Physical-chemical parameters of water in the lotic
ecosystems of Los Ríos province.
Parameters Ventanas Quevedo Buena Fe
pH 7.43 7.40 8.44
Ammonium (mg.L
-1
) 0.17 0.25 0.22
Nitrate (mg.L
-1
) 0.15 0.15 0.12
Nitrite (mg.L
-1
) 0.14 0.20 0.22
Hardness (ppm) 54.00 48.04 45.20
Temperature (°C) 27.60 26.50 27.00
In pH that are in ranges between 7.5 and 8.5 they are ideal for
the growth of sh and other aquatic organisms such as shrimps
since it has good productions, very acid pH below 6 are detrimental
for the growth and development of sh. When the pH of the pond
is less than 5, liming is recommended to regulate it (Súarez and
Petrere, 2007). Which agrees whit the results of this work. Some
similar occurred for nitrites and nitrates, these are values considered
low and adequate for sh farming (Ayazo et al., 2018).
The comparison between the proportions for sex (table 3)
reected in the three lotic ecosystems of the province of Los Ríos
that the highest percentage corresponds to females. Showing
Quevedo the largest number of females from the numerical point of
view, since they were not compared between them.
Table 3. Sex ratio in Pseudocurimata boulengeri of lotic
ecosystems.
Lotic sector % Females % Males SE± p
Ventanas 82.41 17.59 2,34 0.001
Quevedo 87.84 12.16 3,08 0.002
Buena Fe 81.45 18.55 2,89 0.001
A study in Ecuador reported percentages of 67.2 for females
and 32.8 for males when evaluating a period between January 2003
and July 2009 (Chicaiza and Flores, 2016). These same authors
reported higher percentages for females when studying the months
of November to April, a factor that can inuence the growth and
development of this species. Result of Guzmán (2016), found
proportions of 54 for females and 44 for males, when evaluating
an area of the province of Los Ríos. This could be related to
environmental conditions depending on the season.
By establishing the functional relationship between length and
weight by sex and independently in each locality, a linear and direct
relationship between these two variables was observed (table 4).
In all cases, the regression coecients (R
2
) were higher than 0.70
with high signicance. An investigation in Ecuador in the species
Bocachico (Ichthyoelephas humeralis) reported by Méndez-
Martínez et al. (2022b), reected third degree exponential equations
to describe the relationship between weight and size in this species,
which diers from this work. These authors pointed out that the
dierences between the growth of the species may be related to
many factors, such as the size of the samples, size ranges, genetic
aspects between groups of species and environmental conditions.
Also, the weight-length relationship can behave dierently not only
between species, but also within populations of the same species,
since growth depends on environmental, nutritional and genetic
variations. This justies the results of this work.
Table 4. Weight-length relationship of Pseudocurimata
boulengeri in lotic ecosystem
Sex/Lotic Sector
Interactions
Linear regression R²
1/V
y = 0.0421x + 15.638
R² = 0.8375
2/V
y = 0.0407x + 16.719
R² = 0.7405
1/Q
y = 0.036x + 16.784
R² = 0.7784
2/Q
y = 0.0455x + 15.647
R² = 0.8796
1/B
y = 0.0394x + 15.98
R² = 0.8787
2/B
y = 0.0483x + 14.905
R² = 0.7151
Ochoa-Ubilla et al. (2016), when evaluating the functional
relationship between weight and size of species such as:
Ichthyoelephas humeralis, Leporinus ecuadoriensis, Brycon spp.,
Rhamdia cinerascens, Andinoacara rivulatus, Hoplias microlepis,
Pseudocurimata spp., which are considered of economic value in
Ecuador; obtained potential equations for growth. Although they
highlighted that I. humeralis, A. rivulatus and Pseudocurimata
spp showed negative allometric growth, while H. microlepis, L.
ecuadoriensis, Brycon spp. and R. cinerascens showed isometric
growth. This justies and accentuates the above.
The morphometric indicators evaluated reected dierences
(table 5). In the case of weight, the highest values are observed
for females in the Quevedo and Buena Fé cantons (1/Q and 1/B).
Thus, the minors appear for the males in the cantons of Ventanas,
Quevedo and Buena Fé (2/V, 2/Q and 2/B), with no dierences
between them.
For length, something dierent occurred, the lowest value
was reected by2/B with dierences compared to the rest. The
remaining interactions did not show dierences between them with
sizes in all cases exceeding 23 cm. Something similar occurred
for the thickness of the head, where 4.03 cm was shown as the
lowest value in 2/B with dierences compared to the rest, which
were similar among them. The latter reached values above 4.35 cm,
regarding length, a study in Ecuador was reported (Pacheco, 2020),
values similar to those of this research. Note that some specimens
exceeded 26 cm, and also the percentage of females exceeded that
of males as manifested in this work.
For its part, the thickness of the trunk showed signicant
dierences in interactions 2/V, 2/Q and 2/B, compared to 1/V, 1/Q
and 1/B. In the rst three cases mentioned, the values exceed 6 cm.
For the thickness of the tail, no dierences are shown between
interactions 1/V, 1/Q and 1/B, in all three cases the values exceeded
2.50 cm. The remaining interactions did not dier between them,
but with those mentioned above, except 1/V and 2/V. The total
length morphological indicator (table 5) was higher than that found
by Caez et al. (2019), when evaluating the species A. rivulatus in
wild conditions in the Quevedo canton, belonging to the Los Ríos
Province. These authors selected 52 shes, and expressed total
lengths between 14.8-21.8 cm. However, when they analyzed the
size of the head, the values reached 6.6 cm, higher than those shown
in this investigation, which could be given by the species, since the
living conditions were very similar.
This scientic publication in digital format is a continuation of the Printed Review: Legal Deposit pp 196802ZU42, ISSN 0378-7818.
Méndez-Martínez et al. Rev. Fac. Agron. (LUZ). 2023 40(2): e2340115-7 |
Table 5. Morphometry in Pseudocurimata boulengeri in lotic
ecosystems.
Sex/Lotic
Sector
Interactions
Weight
(g)
Size
(cm)
Head
thickness
(cm)
Trunk
thickness
(cm)
Tail
thickness
(cm)
1/V 185.29
bc
23.43
b
4.43
b
6.12
b
2.51
bc
2/V 164.07
ab
23.39
b
4.36
b
5.45
a
2.40
ab
1/Q 191.75
c
23.69
b
4.39
b
6.33
b
2.60
c
2/Q 161.46
a
23.00
ab
4.30
b
5.38
a
2.38
a
1/B 185.98
c
23.31
ab
4.35
b
6.16
b
2.55
c
2/B 153.98
a
22.34
a
4.03
a
5.39
a
2.30
a
SE± 22.3 1.31 0.25 0.38 0,15
p 0.03 0.03 0.02 0,04 0,04
Unequal letters in the same column diers for p<0.05 according to Newman Keuls.
Moreno et al. (2019), when studying the species Eremophilus
mutisii, analyzed morphometric indicators. These authors used 33
animals captured in the Bogotá River, of these 27 females and six
males. They reported weight 222.7 g for males and for females 181.1
g, for body length reected 28.6 and 28.1 cm, respectively. For head
width, they reported values of 3.2 cm (males) and 3.1 cm (females),
with a condition factor of 0.9 and 0.8, respectively. It was possible
to appreciate better behavior from the numerical point of view for
the females, these results coincide with those of this investigation. It
is important to highlight that the literature shows that morphometric
indicators can have variability in responses to environmental
conditions, consistent with the evolutionary hypothesis where
it is stated that divergent habitats drive interspecic phenotypic
diversication, important aspects to predict adaptive responses
of freshwater sh species. These somatic dierences between
populations of a species may be related to habitat conditions such as:
temperature, turbidity, food availability, depth and water ow (Foster
et al., 2015).
Biological indices reected dierences between interactions
(table 6). The hepatosomatic (IHS) reected the lowest values for
interactions 2/V, 2/Q and 2/B, without dierences between them
and with the rest. These last 1/V, 1/Q and 1/B showed the highest
percentages, in the three chaos above 0.90. For the stomasomatic
index (ISS) the opposite occurred, the highest values appear for the
males in the three cantons studied, with dierences with respect to the
rest. In all cases, the percentage found was greater than one.
An investigation carried out in Ecuador in the species Eremophilus
mutisii reected similar results to that of this investigation (Moreno
et al., 2019). These authors reported that females have a higher
gonadosomatic and hepatosomatic index than males. This was
rearmed by Méndez-Martínez et al. (2022c) in the Andinoacara
rivulatus species, obtaining results similar to those provided in this
work. These indicated that the females, after starting the maturation
process of the gonads, must allocate a large amount of energy
and nutrients for reproduction, which allows them to support the
development of said gonads, much higher than that of the males.
Table 6. Biological indices in Pseudocurimata boulengeri of lotic
ecosystems.
Sex/Lotic
Sector
Interactions
IHS ISS IGS IVS FC
1/V 0.97
b
1.04
a
12.76
b
20.04
b
1.43
b
2/V 0.74
a
1.20
b
7.06
a
13.01
a
1.28
a
1/Q 0.92
b
1.02
a
13.58
b
20.45
b
1.43
b
2/Q 0.70
a
1.19
b
6.73
a
12.33
a
1.32
a
1/B 0.93
b
1.06
a
12.64
b
20.09
b
1.46
b
2/B 0.76
a
1.13
b
6.32
a
13.96
a
1.38
b
SE± 0.07 0.09 1,86 2.12 0.10
p 0.05 0.06 0.03 0,07 0.06
Unequal letters in the same column dier for P<0.05 according to Newman Keuls.
Expressed in percentage IHS=hepatosomatic index, ISS=stomasomatic index,
IGS=gonadic index, IVS=vicerosomatic index, FC=condition factor.
The gonadal index had a behavior similar to the IHS. The females
in the three ecotypes studied were the ones that presented the highest
percentages, with values higher than 12, with dierences to the
rest. The latter did not show dierences between them. Something
similar happened for the vicerosomatic index (IVS). Where the
females showed the highest values (above 20 %), without dierences
between them and with the males. The latter presented similar
behavior regardless of the locality where the study was carried out.
The condition factor showed dierent results from the previously
evaluated indicators, interactions 2/V and 2/Q did not dier between
them, but with the rest. The highest percentages are seen above 1.38
for the remaining interactions without dierences between them.
Leyton (2015), reported in Ecuador in ve species of native sh,
reected that the condition factor was greater than one, similar to
what happened in this investigation. This author reported that values
below one denote diculties in the growth of the sh, due to pressures
in the production environment, while valuesabove one reect
favorable environmental conditions for growth. On the other hand,
other research highlights that values greater than one are associated
with spawning times, among other aspects (Méndez-Martínez et al.,
2022b). Thus, temperature is considered another factor that aects the
body condition of sh, the amount of oxygen they absorb through the
gills, plant cover and food availability (Foster et al., 2015).
Moreno et al. (2019), when evaluating the vicerosomatic and
hepatosomatic indices in the species Eremophilus mutisii, reported
lower values than those reported in this work, which is undoubtedly
due to the species, in addition to other factors such as habitat and
weather conditions. It is important to highlight that these authors
found the highest values for these indices in females, a result that
coincides with those exposed in this investigation.
The metabolic indicators showed dierences between the dierent
interactions (table 7). Triglycerides reected the highest values for
1/Q (417.33 mg.dL
-1
) with dierences compared to the rest. Thus, the
lowest content appears for males in the Buena Fe canton. Note that
there were no dierences between interactions1/V and 1/B (table 7).
For its part, cholesterol showed the highest amount in interactions2/V
and 2/Q, those that did not present dierences between them and did
with the rest. The lowest value (142 mg.dL
-1
) appeared for 1/V and
1/Q.
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Rev. Fac. Agron. (LUZ). 2023, 40(2): e234011. Abril-Junio. ISSN 2477-9408.6-7 |
Table 7. Metabolic indicators in Pseudocurimata boulengeri of
lotic ecosystems.
Sex/Lotic Sector
Interactions
Trigly-
ceride
(mg.dL
-1
)
Cholesterol
(mg.dL
-1
)
Glucose
(mg.dL
-1
)
protein
(g.dL
-1
)
1/V 362.67
d
139.00
a
51.33
b
3.75
b
2/V 259.67
b
161.33
d
102.05
e
3.92
d
1/Q 417.33
e
142.00
a
40.00
a
3.83
c
2/Q 348.00
c
161.00
d
101.67
e
3.97
d
1/B 358.67
d
153.00
c
58.00
c
3.65
a
2/B 226.33
a
147.67
b
90.00
d
3.65
a
SE± 6.33 3.46 2.00 0.03
p 0.002 0.003 0.001 0.001
Unequal letters in the same column diers for P<0.05 according to Newman Keuls.
Glucose reected dierences between interactions except between
2/V and 2/Q, these constitute the highest values in the study (101.67
and 102.05 mg.dL
-1
, respectively). The smallest amount of glucose
appears in 1/Q (40), this showed dierences with all. It is important
to note that the highest values appear for males regardless of where
they were captured. The proteins reected the highest amount in 2/Q,
with dierences compared to the other interactions. The lowest was
shown for 1/B and 2/B (3.65).
Méndez-Martínez et al. (2022c) reported cholesterol and glucose
values in the species Andinoacara rivulatus higher than those of this
investigation. For example, they reported 185 mg.dL
-1
for glucose
in males and 222 for females. In the case of cholesterol, values of
164 and 161 mg.dL
-1
, respectively, appear. However, when studying
triglycerides, the results are below those discussed in this research.
What is undoubtedly due to the species and sex among other aspects.
Ahmadniaye-Motlagh et al. (2020), reported that such variations may
be due to various factors such as sex, age, maturation of the gonads,
genetic variation, habitat, climate and stress caused during handling.
Thus, the literature refers that hematology and serum biochemistry in
sh can assess the animal response to dierent factors such as stress,
diseases, nutritional imbalances (Gonzales-Flores et al., 2020).
The disorders that occur due to these factors depend on the
species, age, physiological phase, according to Erhunmwunse and
Ainerua (2013) the concentration of cortisol, glucose and cholesterol
can be aected by hypoxic stress, which in turn can be altered by
animal density, consequently, these parameters are essential to know
the state of the animal, it is possible to recognize the failures that are
occurring in the system due to internal factors such as water quality
and management. Although it is necessary to highlight that the water
indicators were within the appropriate parameters for sh. While in
the town of Quevedo where the highest values for total length, head
length, as well as metabolic indicators were observed, these were
somewhat higher from the numerical point of view. This could haves
inuenced these results depending on what was reported by Ayazo et
al. (2018).
Conclusions
In this study, it was shown that for the morphometric indicators, sex
did not prevail, since weight, condition factor, thickness of the trunk
and tail were higher for females, while the rest were higher for males,
regardless of age, location. Biological indicators were inuenced by
sex, with superiority for females except for the stomasomatic. While
metabolic indicators showed variability with respect to areas and sex.
Acknowledgment
Our thanks to Bella Vista artisanal shing association for his
support in catching the organisms. We thank Wendy Hidalgo for
technical support in processing the samples. The research was
supported by the Universidad Técnica Estatal de Quevedo (UTEQ).
Support project for the call FOCYCYT-7th, project PFOC7-48-2020.
Literature cited
Ahmadniaye-Motlagh, H., Sarkheil, M., Safari, O. & Paolucci, M. (2020).
Supplementation of dietary apple cider vinegar as an organic acidier on
the growth performance, digestive enzymes and mucosal immunity of
green terror (Andinoacara rivulatus). Aquaculture Research, 51(1), 197-
205. https://doi.org/10.1111/are.14364
Ayazo, J., Pertuz, V., Espinosa, J., Jiménez, C., Atencio, V. y García M. (2018).
Desempeño de bocachico Prochilodus magdalenae en sistemas intensivos
de producción con tecnología biooc. Biotecnología en el Sector
Agropecuario y Agroindustrial. 16(1), 91-101. https://revistas.unicauca.
edu.co/index.php/biotecnologia/article/view/1149
Caez, J., González, A., González, M.A., Angón, E. & Rodríguez, J.M.
(2019). Application of multifactorial discriminant analysis in the
morphostructural dierentiation of wild and cultured populations of vieja
azul (Andinoacara rivulatus). Turkish Journal of Zoology, 43(5), 1-15.
http://dx.doi.org/10.3906/zoo-1903-31
Chicaiza, D. y Flores, H. (2016). Parámetros biológicos de Pseudocurimata
boulengeri en el embasaje Chongón, Ecuador. Biologia Tropical,
64(1), 131-146. https://www.scielo.sa.cr/pdf/rbt/v64n1/0034-7744-
rbt-64-01-00131.pdf
Defeo, O. y Vasconcellos, M. (2020). Transición hacia un enfoque ecosistémico
de la pesca – Lecciones aprendidas de pesquerías de América
del Sur. FAO Documento técnico de pesca y acuicultura N° 668.
Roma, FAO. https://doi.org/10.4060/cb2229es
Erhunmwunse, O.N. & Ainerua, M.O. (2013). Characterization of Some Blood
Parameters of African Catsh (Clarias gariepinus). American-Eurasian
Journal of Toxicological Sciences, 5(3), 72-76. http://www.idosi.org/
aejts/5(3)13/3.pdf
Escanta Molina, R. y Jiménez-Prado, P. (2019). Uso de la morfometría geométrica
para establecer contrastes biológicos y ambientales en poblaciones de
peces del río Teaone. Revista Cientíca Hallazgos21, 4(1), 55-69. https://
revistas.pucese.edu.ec/hallazgos21/article/view/332/230
FAO. (2020). The State of World Fisheries and Aquaculture 2020. Sustainability
in action. Food and Agriculture Organization (FAO), Rome, Italy. https://
www.fao.org/3/ca9229en/ca9229en.pdf
Foster, K., Bower, L. & Piller, K. (2015). Getting in shape: habitat-based
morphological divergence for two sympatric shes. Biological Journal of
the Linnean Society, 114(1), 152–162. https://doi.org/10.1111/bij.12413
Gonzales-Flores, A., Huanuiri, K., Vasquez, J., Guerra, F. y Fernández-Méndez,
C. (2020). Caracterización hematológica de Astronotus ocellatus
(Cichliformes: Cichlidae): especie de importancia económica en la
Amazonía peruana. Revista de Investigaciones Veterinarias del Perú,
31(2), e17827. http://dx.doi.org/10.15381/rivep.v31i2.17827
Guzmán, V.J.A. (2016). Sostenibilidad de pesquerías artesanales de peces de
agua dulce en la provincia de Los Ríos (Ecuador). http://repositorio.
ug.edu.ec/bitstream/redug/25206/1/estudio_caso_julio_guzman_
FINAL_31102016_nal.pdf
Hilborn, R., Amoroso, R., Anderson, C., Baum, J., Branch, T., Costello, C., De
Moor, C., Faraj, A., Hively, D., Jensen, O., Kurota, H., Little, L.R., Mace,
P., McClanahan, T., Melnychuk, M., Minto, C., Osio, G., Parma, A., Pons,
M., Segurado, S., Szuwalski, C., Wilson, J. & Ye, Y. (2020). Eective
sheries management instrumental in improving sh stock status. PNAS
117(4), 2218–2224. https://doi.org/10.1073/PNAS.1909726116
Holden, M.J. y Raitt, D.F.S. (1975). Manual de ciencia pesquera. Parte II. Métodos
para investigar los recursos y su aplicación. Food and Agriculture
Organization (FAO) Rome, Italy. https://www.fao.org/3/f0752s/f0752s00.
htm
Leyton, S. (2015). Estimación del factor de condición de Fulton (K) y la relación
longitud-peso en tres especies ícticas presentes en un sector sometido
a factores de estrés ambiental en la cuenca alta del río Cauca. Revista
Asociación Colombiana de Ciencias Biológicas, 1(27), 21-28. https://
revistaaccb.org/r/index.php/accb/article/view/99
Méndez-Martínez, Y., Pacheco-Morales, G.K., Del Barco-Ibarra, K.A., Torres-
Navarrete, Y.G., & Hernández-Vergara, M.P. (2021). Biochemical
and immune response in red tilapia (Oreochromis mossambicus × O.
This scientic publication in digital format is a continuation of the Printed Review: Legal Deposit pp 196802ZU42, ISSN 0378-7818.
Méndez-Martínez et al. Rev. Fac. Agron. (LUZ). 2023 40(2): e2340117-7 |
niloticus) with dietary chitosan supplementation. Revista de la Facultad
de Agronomía (LUZ), 38(4), 1016-1034. https://doi.org/10.47280/
RevFacAgron(LUZ).v38.n4.15
Méndez-Martínez, Y, Puente-Mendoza, M. M., Torres-Navarrete, Y. G.,
Zamora-Zambrano, R. J., Botello-León, A., & Ramírez, J. L. (2022a).
Comparative study of serum biochemical and hematological parameters
of Andinoacara rivulatus and Ichthyoelephas humeralis in Los Ríos
Province, Ecuador. Latin American Journal of Aquatic Research, 50(2),
289-300. https://dx.doi.org/10.3856/vol50-issue2-fulltext-2795
Méndez-Martínez, Y., Cevallos-Chávez, M.F., Álvarez-Sánchez, A.R., Botello-
Leon, A. & Verdecia-Acosta, D.M. (2022b). Blood biochemistry and
morphometry of Ichthyoelephas humeralis in lotic ecosystems, Los Ríos
Province, Ecuador. MVZ Córdova, 27(1), e2174. https://doi.org/10.21897/
rmvz.2174
Méndez-Martínez, Y., Cevallos-Chevez, M., Torres-Navarrete, Y., Cortés-Jacinto,
E. & Ramírez-de la Ribera, J. (2022c). Eect of habitat and sex on
biological indicators and blood biochemistry of Andinoacara rivulatus in
the province Los Ríos – Ecuador. Revista de la Facultad de Agronomía
(LUZ), 39(1), e223910. https://doi.org/10.47280/RevFacAgron(LUZ).
v39.n1.10
Moreno, J.M., Aguilar, F.A., Boada, N.S., Rojas, J.A. y Prieto, C. (2019). Análisis
morfométrico e índices corporales del capitán de la sabana (Eremophilus
mutisii). Revista de la Facultad de Medicina Veterinaria y Zootecnia,
66(2), 141-143. http://dx.doi.org/10.15446/RFMVZ.V66N2.82433
Nugra, F., Anaguano-Yancha, F., Arízaga, C., Zárate, E. y Brito, J. (2018).
Leucismo en el pez Lebiasina bimaculata (Characiformes: Lebiasinidae)
en Guayas, Ecuador. Biota Colombiana, 19(2), 133-139. http://dx.doi.
org/10.21068/c2018.v19n02a12
Ochoa-Ubilla, B.Y., Mendoza-Nieto, K.X., Vivas-Moreira, R., Undánigo-
Zambrano, J. y Ferrer-Sánchez, Y. (2016). Estructura de tallas de captura
y relación longitud-peso de peces nativos en el humedal Abras de
Mantequilla, Ecuador. Ciencia y Tecnología, 9(2), 19-27. https://revistas.
uteq.edu.ec/index.php/cyt/article/view/191
Pacheco, J. (2020). Aspectos biológicos y pesqueros de las principales especies
capturadas en el río Babahoyo y auentes en el cantón Samborondón de
la provincia del Guayas. Boletín Cientíco Técnico, 22 (2), 25-35. https://
www.institutopesca.gob.ec/wp-content/uploads/2018/01/Aspectos-
Biol%C3%B3gicos-y-Pesqueros-Principales-Especies-Capturadas-
Embalse-Chong%C3%B3n-Durante-2011.pdf
Súarez, Y.R. & Petrere, Jr. M. (2007). Environmental factors predicting
sh community structure in two neotropical rivers in Brazil.
Neotropical Ichthyology, 5(1), 61-68. https://doi.org/10.1590/S1679-
62252007000100008
Trinder, P. (1969). Determination of Glucose in blood using glucose oxidase with
an alternative oxygen acceptor. Annales of Clinical Biochemistry, 6, 24-
27. http://dx.doi.org/10.1177%2F000456326900600108
Volko, H. & Rønnestad, I. (2020). Eects of temperature on feeding and digestive
processes in sh. Temperature (Austin), 7(4), 307-320. http://.doi.org/10.1
080/23328940.2020.1765950
