Efectos letales y teratogénicos de Malatión, Ácido 2,4-Diclorofenoxiacético, Cobre y Arsénico durante el desarrollo de Rhinella arenarum (Anura: Bufonidae)
Resumen
Historically, man has modified his natural environment for his benefit. Human
activities and the intensive use of natural resources have led to gradual environmental
deterioration. Environmental pollution constitutes a highly complex problem due to the
multiplicity of factors involved in the dynamics of polluting compounds and is
considered one of the causes of the decline of amphibian populations. Amphibians, due
to their thin, permeable skin, shellless eggs, and biphasic life cycle, are especially
vulnerable to environmental contaminants. Among these environmental contaminants,
agricultural pesticides are of special interest due to their presence in agroecosystems,
where many species of anurans inhabit. Likewise, heavy metals constitute a highly
dangerous group because of their toxicity, also and their quantity in the environment
may be increased by different human activities. To provide basic toxicological
information useful to predict the impact of pollutants on non-target organisms, the
following objectives were proposed: 1) to analyze the toxicity of the insecticide
malathion, the herbicide 2,4-D, copper and arsenic, using standardized toxicity
bioassays with embryos and larvae of Rhinella arenarum (Anura: Bufonidae) at
different stages of development, 2) to evaluate the lethal and sublethal effects on
embryos and larvae caused by these compounds, 3) to evaluate the stage-dependent
susceptibility for each selected chemical and to identify the most sensitive stages of
development, 4) to compare the toxicity of the inner ingredient of organic pesticides,
malathion, and 2,4-D, with its commercial formulations, Glacoxan 50M® and Esterón
Ultra®, respectively. For this, standardized protocols of the AMPHITOX test were
used: AMPHIEMB, AMPHIACUT, AMPHISHORT, AMPHICHRO, and PULSE
EXPOSURE tests. The evaluated endpoints were: lethality, narcosis, behavioral and
morphological alterations, and delay in developmental and growth alterations. Based on
mortality and malformations data, the LCs 10, 50, and 90 and the TI for each toxicant
analyzed were calculated. The insecticide malathion (inner ingredient) has a narcotic
and lethal effect, a teratogenic potential, and the ability to alter the behavior and the
growth of embryos and larvae of Rhinella arenarum. The commercial Glacoxan 50M®
was several times more lethal than the i.a. The susceptibility of Rhinella
arenarum shows a stage-dependent relationship, the E. 25 was the most susceptible to
the lethal effect. The herbicide 2,4-D (inner ingredient) and its commercial formulation,
Esterón Ultra®, have a significant lethal effect on Rhinella arenarum larvae, being the commercial formulation more toxic than the inner ingredient. Esterón Ultra® has also
teratogenic capacity and alters the morphogenesis and growth of the embryos. The early
embryonic stages were the most susceptible to the herbicide's toxic effect. The greater
toxicity of the commercial formulations compared to the inner ingredient may be due to
the presence of adjuvants in their composition. Copper chloride and sodium arsenite
have a significant lethal effect and teratogenic capacity on embryos and larvae
of Rhinella arenarum. Finally, the teratogenic mechanism of the studied compounds
does not exert its action on a specific organ but rather alters the morphogenetic
processes. Consequently, any structure or organ developing at the time or after exposure
to these compounds may develop a morphological abnormality. This highlights the high
susceptibility of early embryonic and larval stages and the need to include them in
ecotoxicological evaluations.
Colecciones
- Tesis doctoral [106]