Land snails on two different sides of Mt. Galunggung

It has been 32 years since the eruption of Mount Galunggung that the land snail diversity in the area were examined, not only in the stricken area but also in the secure place on the other side. The recent collection found 250 snails of 10 families (29 species). In the impacted area, 15 species (154 individuals) of land snails were discovered, whereas 18 species (96 individuals) were discovered in the unimpacted area. By a t-Student statistical analysis (95% confidence interval) for comparison between area of equal variances it was discovered that the two area differ significantly. The analysis was continued by using NMDS of PAST to show the difference more detail. This research proves that the snail assemblage in the impact area of eruption area were different with the snail’s assemblage in the unimpacted other side of the Mount.

Mt. Galunggung erupted in 1982. It attracted the world's attention because the eruption lasted about nine months. The eruption ejected smoke pole around 35 km high, together with volcanic ash that almost covers the whole West Java. Pyroclastic material flows and causes complete destruction of biota in impacted areas such as south east side of Galunggung. On the other hand, the forest at the western side was only affected by the ashfalls. The environmental catastrophe was predicted to have a major influence on the animal populations especially to small animals which has limited movement like snails.
About three decades after the eruption, together with natural succession, trees of Perhutani replantation grew successfully. Unfortunately, no record has been taken regarding the development of snail life in time series after the eruption to date. As a reflection, a research in West Estonian discover that after 8 years of replantation no snails ever found, 13 years of replantation found 2 species of snails, 25 years of replantation found 9 species of snails [3].
The aim of this work is to describe the current snail assemblage in the area affected by the Mount Galunggung eruption 32 years ago compared to snail assemblage in an area where the impact of the eruption was very small or not affected at all.

Sampling Work
Snails sampling for eruption impacted area were conducted in the horseshoe shaped of Mt. Galunggung. On the other hand, snails sampling for the nonimpacted area was conducted in an area close to Talaga Putih crater. Sampling was carried out using the purposive method by tracing the land snails' habitat in the study area. The land snail habitats such as herbaceous vegetation, mosses, litter and the upper soil layer were disclosed to find the land snails existence. The sampling work covered 4 sites in each area with 33.33 x 33.33 cm 2 frames were spread out as sampling plot in each site. Eleven frames were set up in unimpacted areas and 21 frames in impacted areas. The snails found in the frame were put in plastic containers to prevent it from damage. Photograph of a snail while still alive was taken. Living snails were collected and killed by immersing them in fresh water for 12 hours. Dead snails were preserved in 70% alcohol solution and stored in vials and labelled. All samples were deposited at the Malacology Laboratory, Bogor Zoological Museum in Cibinong, Bogor.

Laboratory Work
In the laboratory, samples were sorted based on character similarity and counted. All samples, both large and small, were washed individually from all mud and other impurities. Dirty micro-size samples were cleaned in loose vial by using the Sibata ultrasonic cleaner for 3 hours. Clean samples were put into new preservation containers with new preservation and new label. Samples identification referred to van Benthem-Jutting [4-6].

Statistical Analysis
The mollusc samples subjected to analyses were based on live and shell individuals. Statistical analyses of comparing two areas were performed using Student's ttest between two groups of Excel 2010 and strengthen by ordination technique of Non-Metric Multidimensional Scaling (NMDS), with the Bray-Curtis similarity index. This last analysis used the software PAST 2.10.

Results and Discussion
Land snail sampling yielded 250 individual snails, representing 10 families, 14 genera, and 29 species (Table 1). It has been found that snails' abundance in impacted area is higher than that of in unimpacted area. As many as 154 individuals of snail samples were from impacted area whereas from 96 individuals of snail samples were from unimpacted area.
The snail is very prone to volcanic eruptions since it cannot move fast and escape quickly. In addition, the environment around the eruption site is also not immediately inhabitable because the environment is not in accordance with the needs of snail life. For example, snail needs habitat with low temperature and high humidity which will not be found in the place where the volcanic eruption affected. The hot environment turned off the vegetation in the impacted area and generate no leaf litter left for snails to be eaten. Furthermore, the desolate area when stricken by heavy raindrops as often occurs in a mountain area leads to erosion [7].
Statistical analysis of t-Student (95% confidence interval) for comparison between area of unequal variances revealed that the two area were differ very significantly. The t-test convincingly that both group of snails were truly different, not only the location where they live, but also species assemblage.t is attest that volcano eruption does not only change the physical area but all life in the area including snails and the process thereafter.
In accordance with Student-t test, the non-metric multidimensional scaling of PAST program discloses two groups of different sites. In Figure 2, four blue dots represent sites in impacted areas whereas four red dots represent sites in unimpacted areas. The neighbouring blue dots indicate similarity between them, at least live in the same location.
It is doubtless that the Galunggung eruption destroy snail' habitat including the snails inside. After passing through 3 decades, succession is still going on. The impacted area now colonized by pioneer species and other plant species [8]. When the trees growth become large, and shed their leaves, the litter established on the forest floor. Gradually the forest succession was occupied by snails. The snails found in the area may come from surviving snail in refuge surround, similar to the snails in burnt area [9]. More snail species were probably dispersed from surrounding area of Galunggung where not impacted by the eruption and established the communities.
Probably they were introduced by human in a way stick to plant for reforestation. The thickness of leaf litter accelerated the species richness since they were in association [10]. As stated by Magnin et al. [11] and Kiss & Magnin [12] that vegetation regulates the gastropods in term of food, shelter, and close ground climate. Since this successive environment was suitable for the snails, they were developed quickly, and hence created the abundance higher than the snails in the unimpacted area. Snail species often found in shrubs such as Japonia convexum and Japonia. grandipilum were occur in a large amount in the area as the large trees were not arise yet.
On the contrary, the evenness in the impacted areas is smaller than that of in the unimpacted area, revealed 15 species in the impacted areas in comparison with 18 species in the unimpacted areas (Tabel 1). It can be understood since the snail existence in the unimpacted area was not interrupted by such disaster as Galunggung eruption. Alteration of the habitat change the snails rapidly [13]. Snails in the impacted area must start a new life. Only species which able to adapt to the new environment that can live on. For example, after affliction of burned in Mediterranean forest area, the land snail communities' successor appears to be different composition from previous occupant. The new occupant mostly xerophilous species [14,15]. On the other hand, the snail which live in an unimpacted area continues its life cycle like its ancestors.   The large species such as C. perdix perdix and D.clypeus were live in unimpacted area where shrubbery and litter occur thickly together with the litter dweller D. auriculata, Diplommatina sp. and M. vitreiformis. The micro sized shrubbery snail of C. javanum lives on underbrush close to forest floor. Snails which preference habitat is the moistest, Pupina spp, were also develop in this area.

Conclusion
The eruption of Mount Galunggung in the past 32 years has changed the assemblage of snails into new ones which are mostly bush dwellers and thin litter floor. The snails that best suit their environment are present in large numbers