The spread of freshwater invasive species through aquarium trade poses a threat to the ecosystem, economy and human health. The availability of the exotic freshwater gastropod mollusc, Planorbarius corneus (Linnaeus, 1758) (Gastropoda: Planorbidae), in pet shops in Kolkata, West Bengal, India, raises concern for its potential establishment as an invasive species. Assuming the role of the native predators as a potential biotic barrier for invasion, observations on the predation pattern of the malacophagous leech, Glossiphonia weberi (Blanchard, 1897) (Clitellata: Glossiphoniidae) against P. corneus was made in single as well as in combination with the native snail Indoplanorbis exustus (Deshayes, 1834) (Gastropoda: Planorbidae). Using varying size classes and densities of P. corneus, the predation potential of G. weberi was estimated after a 24 hour period. In another set of experiments, the predation of G. weberi against the snail P. corneus was observed in the presence of I. exustus under four different habitat conditions. The purpose was to justify - (1) the effect of conspecific and heterospecific conditions of the prey availability and (2) the effect of habitat complexity on the predatory efficacy of G. weberi. The results indicated that G. weberi consumed varied numbers of P. corneus, depending on the size and the densities of the prey and predator. Although the prey heterogeneity and complex habitats caused significant reduction of predation on both of the prey species, G. weberi significantly preferred P. corneus over I. exustus in open (P < 0.0001), macrophyte (P = 0.002) and pebbles and macrophyte containing habitats (P < 0.0001). Apparently, G. weberi preferred the exotic snail P. corneus in presence of alternative prey snail I. exustus, under different habitat conditions. Therefore, G. weberi may act as a significant biotic resistance against the colonization and establishment of P. corneus in the Indian context. However, further studies including the multiple prey and predators are required to ascertain the food web level impact of the exotic snail P. corneus in invaded freshwater ecosystems.
The waste shells of Filopaludina bengalensis and Pila globosa can be used as an eco-friendly and low-cost biosorbent for phosphate removal from eutrophicated water or industrial wastewater.
im: The dispersal and geographical range expansion of globally invasive snail Physella acuta (Draparnaud, 1805) (Gastropoda: Physidae) were little being monitored following the first report from Kolkata, India. An account of the encounter of P. acuta in two ponds of North Dinajpur district of West Bengal, India is recorded here. Methodology: Multiple samples of freshwater snails were collected using aquatic nets from the invaded and non-invaded ponds for assessment and comparison. The shell lengths of the collected P. acuta were measured using a vernier calliper to represent size class variations of the population in the ponds. Results: Varying numbers of P. acuta were present in the shoreline and the hydrophytes of littoral zone of invaded ponds. The size class distribution of P. acuta indicated the establishment of a stable population in the invaded ponds where a significant difference (P < 0.05) was observed in the abundance of a native snail Racesina luteola (Lamarck, 1822) when compared with the abundance in the non-invaded ponds. Interpretation: Invasion of P. acuta in the ponds reflected its ability to overcome the predator-borne barriers and to coexist with the native snails. The geographic range of P. acuta seems to have extended, even though slower with reference to the first record in India.
The different types of paper wastes constitute a major
portion
of municipal solid waste. The present study was aimed to justify the
use of freshwater snails for the biological degradation of the paper
waste and subsequent availability of cellulose from fecal matter.
Three aquatic snails
Racesina luteola
,
Indoplanorbis exustus
, and
Physella acuta
were used to degrade newsprint, cardboard,
and common writing paper as paper waste. The consumption of papers
by the snail species was subjected to statistical analysis, and the
results of Kruskal-Wallis test indicated a significant variation in
the paper-specific consumption pattern (
K
= 181.762,
df
= 2,
p
<0.0001) and no variation
in the species-specific pattern. Among the three types of paper used
for the study, cardboard was consumed at the highest rate (4.655 ±
0.401 mg per day), and the per capita consumption remained highest
for the snail
I. exustus
(2.253 ± 0.273 mg
per day). The microscopic images and SEM micrographs of the consumed
paper revealed prominent grazing and scraping marks by the snails.
The disintegration and relaxation of the papers after consumption
indicated that they were on the pathway to degradation. The traditional
way of degrading paper waste includes physical, chemical, or microbial
treatment of paper pulp. This study represents a novel approach considering
the freshwater snails as model organisms for the biodegradation process.
Considerable amount of cellulose was present in the fecal samples,
which can be extracted and purified for utilization as potent raw
material.
The North American freshwater snail Physella acuta has invaded and colonized a wide range of freshwater habitats, globally. Resembling other invasive species, P. acuta has several negative impacts on the invaded freshwater ecosystems, which calls for its regulation, preferably through biological control. The malacophagous leech Glossiphonia weberi, native to West Bengal, India, had been previously reported as a potential biocontrol agent of P. acuta. In this experiment, we observed the predation potential and prey preference of G. weberi on P. acuta in the presence of a native snail, Gyraulus convexiusculus. The results suggest that in all instances, G. weberi consumed less G. convexiusculus compared to P. acuta. In complex habitats, G. weberi showed significant prey preference to P. acuta except in the habitat characterized by the presence of pebbles. The complex habitats bear a significant (p < 0.05) negative impact only in the case of predation on P. acuta when present with conspecific but not in heterospecific prey conditions. Therefore, G. weberi qualifies as a useful biological control agent that can affect the colonization and expansion of the invasive snail P. acuta, even in the presence of alternative prey.
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