JoTT Review
4(11): 3029–3037
Land snails (Mollusca: Gastropoda) of india: status,
threats and conservation strategies
Sandeep Sen 1, G. Ravikanth 2 & N.A. Aravind 3
1,2,3
Suri Sehgal Centre for Biodiversity and Conservation, Ashoka Trust for Research in Ecology and the Environment (ATREE),
Royal Enclave, Srirampura, Jakkur PO, Bengaluru, Karnataka 560064, India
Email: 1
[email protected], 2
[email protected], 3
[email protected] (corresponding author)
Date of publication (online): 26 September 2012
Date of publication (print): 26 September 2012
ISSN 0974-7907 (online) | 0974-7893 (print)
editor: Fred Naggs
Manuscript details:
Ms # o2722
Received 03 March 2011
Final received 18 July 2012
Finally accepted 24 August 2012
Citation: Sen, S., G. Ravikanth & N.A. Aravind
(2012). Land snails (Mollusca: Gastropoda) of
India: status, threats and conservation strategies.
Journal of Threatened Taxa 4(11): 3029–3037.
Copyright: © Sandeep Sen, G. Ravikanth & N.A.
Aravind 2012. Creative Commons Attribution
3.0 Unported License. JoTT allows unrestricted
use of this article in any medium for non-proit
purposes, reproduction and distribution by
providing adequate credit to the authors and the
source of publication.
Author Details: See end of this article
Author Contribution: All authors have
contributed equally to this manuscript
Acknowledgements: The authors greatly
acknowledge the Darwin Initiative via DEFRA,
Government of UK for funding. We are also
grateful to Drs. T. Ganesh, Soubadra Devy
and K.V. Gururaja for critical comments on
the earlier version of the manuscript. We also
thank two anonymous reviewers for their critical
comments that greatly helped in improving the
manuscript.
OPEN ACCESS | FREE DOWNLOAD
Abstract: Land snails form an important component in the forest ecosystem. In terms
of number of species, the phylum Mollusca, to which land snails belong, is the largest
phylum after Arthropoda. Mollusca provide unique ecosystem services including
recycling of nutrients and they provide a prey base for small mammals, birds, snakes
and other reptiles. However, land snails have the largest number of documented
extinctions, compared to any other taxa. Till date 1,129 species of land snails are
recorded from Indian territory. But only basic information is known about their taxonomy
and little is known of their population biology, ecology and their conservation status. In
this paper, we briely review status, threats and conservation strategies of land snails
of India.
Keywords: Biodiversity, conservation, land snails, taxonomic bias, reintroduction,
Western Ghats
IntroductIon
The tropics have faced massive biodiversity loss due to intensive
anthropogenic activities such as changes in land use and degradation of
environment. Recent reports suggest that the tropics are losing biodiversity
at an alarming rate (Sodhi 2008). Much of this biodiversity loss has
been reported for vertebrates and plants. However, there is very little
knowledge on the extent of loss in lesser known groups, especially the
invertebrates. In this paper, we highlight the importance of land snails
and the need for their conservation.
Land snails include several distinct lineages of terrestrial gastropods
and belong to the second largest phylum after arthropods in terms of
number of species with more than one lakh described species (Lydeard
et al. 2004). Land snails constitute about six per cent of the total species
on Earth (Clark & May 2002). A large part of molluscan fauna in many
tropical regions of the world is still poorly known. They form an important
component of the forest ecosystem by recycling nutrients (Graveland et
al. 1994; Dunk et al. 2004) and are the prey base for a number of small
mammals, birds, reptiles, amphibians and other invertebrates, including
carnivorous snails (Deepak et al. 2010). In calcium poor habitats land
snails can form an important source of calcium for other animals. Land
snails also serve as an indicator of ecological conditions, and are very
sensitive to climatic and ecological change (Shimek 1930; Simone
1999; Čejka & Hamerlík 2009). Thus, they are useful for reconstructing
past environments (Bar-Yosef Mayer 2002; Gümüş 2009). As early
as 1839 Charles Darwin showed the value of land snails in studying
environmental change (Naggs et al. 2006). Terrestrial snails prove to be
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
3029
Land snails of India
S. Sen et al.
valuable research subjects for studies in evolutionary
biology, biogeography, phylogeography, biodiversity,
ecology and conservation biology (Schilthuizen et
al. 2007; Davison et al. 2008; Richards & Davison
2010). With their generally low dispersal powers,
land snails tend to exhibit conservative distribution
patterns, making them valuable subjects in studying
historical biogeography (Solem 1984; Naggs &
Raheem 2005; Wade et al. 2006). Highly diverse and
narrowly distributed, land snails are good indicators
of areas of conservation importance and endemicity
when compared to widely distributed groups such as
vertebrates (Moritz et al. 2001).
The distribution and activity of land snails depends
on several factors including precipitation, soil pH, soil
Ca content, canopy density, etc. Calcium availability
in the soil is a major limiting factor for their survival
as it is required for their shell formation. Several
studies have shown that Ca is positively correlated
with species richness and density (Burch 1955; Hotopp
2002; Aravind 2005). However, in the regions such as
the Western Ghats, where the soil is usually acidic the
snail richness is usually high but abundance is low.
The past two decades have seen a large number of
studies highlighting the need for mollusc conservation
globally (Bouchet 1992; Ponder 1997; Herbert 1998;
Killeen & Seddon 2004; Budha 2005; Solymos
& Feher 2005; Régnier et al. 2009). Killeen &
Seddon (2004) notably edited a volume with global
coverage on molluscan biodiversity and conservation,
highlighting the importance of molluscan ecology
and conservation. However, very little information
is available on the status and threats of land snails
in India. Here, we review current status of ecology,
conservation and threats to land snails with particular
reference to India and discuss the strategies required
for conserving this important group.
Early studies on land snails in India
Indian malacology was pioneered by William
Henry Benson (1803–1870), who contributed
signiicantly to our knowledge on Indian land snails
in the mid 19th century (Naggs 1997). The Blanford
bothers-William and Henry, H. Theobald, L. Pfeiffer,
G.K. Gude, H.H. Godwin-Austen and R. Beddome,
led Indian land snail research until the early 20th
century, but Gude and Pfeiffer’s research was based
entirely on museum material as neither visited India.
3030
These malacological pioneers laid the foundation of
our knowledge on the taxonomy and distribution of
Indian land snails. Following this period of intensive
study, there was a drastic decline in studies on Indian
land snails. More recent studies in India, have mainly
concentrated on inventorying regional snail faunas
(like state or protected areas) and less on species
description, ecology and conservation (Aravind et
al. 2010). While globally, there has been a renewed
interest in land snail research, in India the research has
truly been at a snail’s pace (Aravind et al. 2005, 2008,
2010; Aravind & Naggs 2012). Little information is
available on species limits, distribution ranges and
patterns of diversity. Recent analysis of Indian land
and freshwater molluscan literature has conirmed
that that there are hardly any studies on the ecology
and conservation of Indian land snails compared to
the wide range of historical literature available on
taxonomy (Aravind et al. 2010). There are no studies
on the population status, phylogeny and taxonomic
revision of different families or genera of Indian land
snails.
Species diversity and rarity in land snails
Globally, nearly 35,000 species of land snails have
been described and there may be 30,000 to 60,000
additional species yet to be described (Lydeard et
al. 2004). Within modern India’s boundaries 1129
species belonging to 140 genera and 26 families of
land snails have been recorded (Ramakrishna et al.
2010). The Western Ghats hotspot has 270 species of
land snails of which 76% are endemic to this region
(Aravind 2005) and 40% are micro-gastropods (i.e.
<5mm on greatest dimension) (Aravind et al. 2008).
Unlike most other systematic groups many land snail
species have restricted range distributions with some
endangered species having a range of less than 5km2
and many endemic species having ranges less than
10km2 (Cameron 1998; Dunk et al. 2004). According
to Solem (1984) nearly half of all terrestrial molluscs
have a species range of less than 100km2. Within the
Western Ghats, species distributed in the southern
region are absent in the northern region. Further, there
is very little overlap between the southern and central,
and central and northern regions (Table 1; Aravind
2005). Nearly 75% of land snails from the Western
Ghats have been reported from less than three sites
(Fig. 1). This data clearly indicates how vulnerable this
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
Land snails of India
S. Sen et al.
Table 1. Percent species shared between different regions
of the western Ghats (Division of the western Ghats is
based on Aravind et al. 2005)
South
Central
South
100
Central
E-17.19
NE-11.11
100
North
E-0.00
NE-2.78
E-1.56
NE-1.39
North
100
35
Percent species
Region
40
30
25
20
15
10
5
0
group is to any small scale change in the ecosystem.
The situation in other regions of India is also cause for
concern. Northeastern India harbours a rich mixture
of Indian and Burmese/Malayan snail groups resulting
in the highest species diversity in this region, but there
are hardly any studies on their distribution and threats.
Our information on the land snails of northeastern
India, is basically from the Fauna of British India and
a few Zoological Survey of India reports. Conversely,
though less rich, the land snail fauna of the Western
Ghats is better known when compared to other regions
of India (Rao 1924; Sathyamaurthi 1960; Subbarao &
Mitra 1979; Ramakrishna & Mitra 2002; Madhyastha
et al. 2004; Mavinkurve et al. 2004a,b; 2005; Aravind
2005; Aravind et al. 2005, 2008; Rajashekhar &
Aravind 2012).
threats
The major threats to the native land snail fauna
include habitat loss and fragmentation as a result of
anthropogenic activities such as intense land use,
construction of roads, dams, plantations, pollution and
the spread of invasive species (Aravind 2005; Aravind
et al. 2005) which reduce diversity and change the
community structure of land snails (Aravind 2005;
Rajashekhar & Aravind 2012). Between 1973 and
1995 the southern Western Ghats lost nearly 25 percent
of forest cover (Jha et al. 2000). This region of the
Ghats harbours high species diversity and endemism
in land snails (Aravind 2005). Poor dispersal and
small distribution ranges of many land snails have
undoubtedly contributed to high levels of extinction.
Because of strict habitat preference, any fragmentation
of populations could affect their gene low. Even,
cutting of roads within a protected area could fragment
populations of snails. However, for a subset of forest
snail species, man-made habitats such as home gardens
and plantations can act as either refugia or corridors
1
2
3
4
Number of locations
5
>5
Figure 1. Distribution pattern of land snails in the western
Ghats
between forest patches (Aravind 2005; Raheem et al.
2008). Climate change is considered to be a threat
to many species (Thomas et al. 2004), and land snails
are particularly vulnerable (Pounds & Crump 1994;
Pounds et al. 1999; Sternberg 2000; Bezemer & Knight
2001; Gerlach 2007). Changes in rainfall patterns
and luctuation in soil temperature could lead to the
death of juvenile snails and impair mobility across a
fragmented mosaic of natural and transformed habitats
in response to climate change. Extinction of land snail
species due to change in climatic conditions such as a
decrease in rainfall and global warming has also been
reported (Baur & Baur 1993; Gerlach 2007). In India,
we do not have any information on potential impact of
climate change on land snails.
A vast extent of the Western Ghats is covered in
plantations such as tea, coffee, areca, rubber etc.
A wide variety of pesticides/herbicides are used to
control several species of arthropods, fungi and plants
that infest these plantation crops (Dipti & Velho 2007).
The impact of these chemicals on the local lora and
fauna including endemic land snails as well as other
invertebrates is unknown. Forest ires (even surface
ires) and reduction in vegetation cover are also major
threats to land snails.
neglected taxa in conservation
The scarcity of malacologists in India has had a
serious impact on studies related to taxonomy, diversity,
distribution, endemism, threats and conservation of
land snails. Lack of interest in land snail research is
also due to poor funding opportunities for taxonomy
and basic biology, unavailability of good taxonomic
keys and ield guides. The science of taxonomy is
practised on an international level. Indian Biodiversity
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
3031
Land snails of India
S. Sen et al.
Act of 2002 does not permit exchange of specimens
with international scientiic communities, which
further hinders the taxonomic studies on land snails
(Prathapan et al. 2006). Further, most researchers and
conservation biologists show considerable interest
in “charismatic conservation” (Burner et al. 2001).
Molluscs have the largest number of documented
extinctions since 1500AD (www.redlist.org). Nonmarine species (terrestrial and freshwater) constitute
99 percent of all molluscan extinctions. Among the
566 extinct molluscs, the largest proportion is of
the land snails (422 species) followed by freshwater
molluscs (140 species). Till date there are only four
recorded extinctions of marine molluscs (Lydeard et
al. 2004; Regnier et al. 2009). In the last 300 years,
the Indian Ocean Islands of Mauritius, Rodrigues and
Reunion have lost 30 species of land snails (Burner et
al. 2001) and St. Helena and Madeira in the Atlantic
Ocean have lost 36 species of land snails (WCMC
1992). Although terrestrial vertebrate extinctions are
well documented, invertebrate extinctions often go
unnoticed. Only a small fraction, i.e., <2% of known
molluscan species have had their conservation status
properly assessed (Lydeard et al. 2004; Naggs et al.
2006). Despite having the largest extinction rates and
highest number of threatened species (Fig. 2), land
snails are still not considered worthy for conservation
efforts despite having deep independent phylogenetic
lineages in many groups.
conSErvatIon of Land SnaILS In IndIa
the role of communities and organisations
Land snails have a very poor image among the
public, forest managers and policy makers (Seddon
1998) and a lack of public support. Recently, an
attempt was made to popularise land snails to a wider
audience in India in the form of an illustrated guide,
produced by the Natural History Museum, London
in association with ATREE, Bengaluru on land snails
of the Western Ghats (Appendix 1). This guide not
only assists conservation biologists but also amateur
naturalists, students and the lay public alike to identify
land snails of the Western Ghats (Raheem et al.
2009).
Effective conservation also requires awareness
regarding importance of this taxa in the ecosystem
Figure 2. Status of Mollusks. Data from 2010 iUCN Red List of Threatened Species (www.redlist.org)
3032
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
Land snails of India
and the services they provide. Communicating the
importance of snails and their role in ecosystem health,
could also attract interest of wider ranging audience.
An organization called Buglife in Europe was set up
to conserve rare invertebrates in Britain (www.buglife.
org.uk). Such efforts are needed in this country for
effective conservation of invertebrates in general and
land snails in particular.
Species-speciic conservation plans
A notable exception to the general apathy towards
snail conservation is the International Partula
Conservation Programme, a unique ex-situ breeding
programme initiated by Prof. Bryan Clarke at the
University of Nottingham and coordinated by the
Zoological Society of London. About 25 Partula snail
species were exterminated in the wild by the predatory
snail, Euglandina rosea that was introduced from
Florida in a misguided attempt to control the introduced
Giant African Snail Lissachatina fulica. This program
involved a managed breeding programme for 25
species of Partula in 15 collaborating zoos globally
along with local conservationists, local communities
and the French Polynesian Government. To date more
than 30 species of Partula have been rescued and
captive breeding populations have been established
in 18 zoos and laboratories throughout the world
(Pearce-Kelly et al. 1997). In another collaborative
effort of the Natural History Museum, Bermuda
and London Zoo, 56 species of highly endangered
land snails from Bermuda were captive bred and
reintroduced as a part of their species conservation
action plan (www.zsl.org/zsl-london-zoo//news/snailmail-from-bermuda,123,NS.html). In the USA plans
for reintroductions to conserve the Stock Island Tree
Snail Orthalicus reses have been taken up (Boresma
et al. 2001; Froys et al. 2001). In India the lack of
information base, studies on the distribution, ecology,
genetics and threats, has hindered the development of
an informed conservation plan. However, a captive
breeding program for selected species would help in
increasing public awareness. Hence, setting up of
“snailariums” for breeding of endemic snails could
usefully be taken up by national parks and zoos. This
might raise public interest in snail conservation across
the country.
S. Sen et al.
Habitat conservation
In India, many forested areas, which are devoid
of large and charismatic mammal species, have high
land snail diversity. However, these reserve forests
generally receive little protection status as they fall
outside the protected area network. These reserve
forests are open access and hence they are prone to a
variety of anthropogenic disturbances such as collection
of minor forest products, grazing, ire, etc. Signiicant
proportions of endemic species are distributed in
these non-protected areas and hence are vulnerable
to extinction. Current habitat conservation practice
is focussed on encompassing iconic but generally
widely distributed/low risk species. Conversely
habitats with the highest total of biological diversity
are not targeted. Land snails are of potential value as
indicators of high diversity habitats for a wide range of
plant and animal groups. Thus, snails can be utilised
for identifying biodiversity rich habitats that should
be given high conservation priorities. In addition, the
high geographical turnover of many land snail species
exempliies the value of local scale conservation in
capturing biological diversity in general (Ponder 1997;
Raheem et al. 2009). For example, the low elevation
evergreen reserve forests of Agumbe, Hulikal, etc.,
in the central Western Ghats have lower levels of
protection but harbour high species diversity of land
snails (Aravind 2005). The top down approach of
conserving large mammals will exclude the majority
of land snails, other invertebrates and plants from
protection (Aravind et al. 2005). Hence, for effective
conservation of land snails, some of the species rich
areas surrounding the protected areas such as Agumbe,
Hulikal and similar areas rich in land snail diversity
need to be given additional protection. In India and
other developing countries, where information is
seriously lacking, an alternative approach to maximise
the conservation of rare and endemic species is by
identifying sites with high diversity and endemism
and protecting the habitat itself (Gaston 1996).
need for future research
Research on land snails in India should focus on
their distribution patterns, taxonomy and ecology.
Taxonomic expertise is a basic foundation for
estimation of global biodiversity and formulation
of policy on conservation of biological diversity
(Golding & Timberlake 2002; Budha 2005). One of
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
3033
Land snails of India
S. Sen et al.
the greatest impediments for malacological research in
India has been a severe lack of trained malacologists.
The initiative such as All India Coordinated
Project on Taxonomy (AICOPTAX) by Ministry of
Environment and Forests (MoEF) produced little work
on molluscan taxonomy. The recent collaborative
project “Developing land snail expertise in South
and Southeast Asia” funded under Darwin Initiative
Project by DEFRA, UK, helped build capacity on
land snail taxonomy not only in India but also in Sri
Lanka, Nepal, Laos, Thailand, Malaysia and Vietnam
(Naggs et al. 2006). However, more funds need
to be allocated for capacity building in the areas of
taxonomy, natural history, ecology and biology of the
species in India. Developing databases on ecology,
breeding behaviour, distribution and other details of
land snails should be encouraged and made accessible
in the public domain, which could change the esoteric
status of malacology. In recent years, there have been
accidental introductions of alien and invasive species
into the Indian subcontinent. The impact of these
invasive snails and slugs such as Lissachatina fulica,
Derocerus leave, Semiperula sp. on native land snail
populations needs to be monitored. The introduced
species generally occupy transformed habitats and
their agricultural/horticultural pest status is more of an
issue than being a threat to the native snails. However,
impact of invasive and pest species on native land snails
and on the economic damage they incur to agriculture
and horticultural crops needs to be assessed. For
the exotic invasive malacofauna of the Indian subcontinent to be controlled in a timely way its status
urgently needs to be assessed. Land snails such as the
African Giant Snail and others are hosts for the rat-lung
worm, which can transmit meningitis to humans. In
India, we hardly have any information on what percent
of human population is affected by this parasite; what
are the health implications and how many species are
carriers for the same. Hence, research is needed in this
direction as well. Indian land snails include lineages
(Pulmonata and Caenogastropda) that diverged as far
back as the Devonian (416 to 359.2 million years ago)
and there are a number of deep independent lineages
of ancient groups some of which are unique to South
Asia (Wade et al. 2006). Thus, research should also
focus on the biogeographical patterns, phylogeny and
evolution of Indian land snail fauna. Further, studies to
resolve the taxonomically problematic groups such as
3034
Glessula through molecular phylogenetic applications
or through DNA barcoding should be initiated.
concLuSIon
For informed conservation measures to be
implemented, detailed studies on land snail
systematics, on threats to survival and on identifying
“hot-spots” for narrow range endemics are urgently
needed. Serious attention needs to be paid towards
protecting remaining forested areas, maintaining
and possibly restoring connectivity, especially in the
tropical rain forests which support rich snail diversity
(Emberton 1996). More funds need to be allocated to
capacity building in malacology. Land snail expertise
is urgently needed for economic reasons; awareness of
native species will certainly help in recognizing newly
introduced exotic species allowing effective control
or management before they become invasive. Efforts
should be made to establish snailariums in zoos in
order to create awareness about snails among people.
Priority should be given to conserve critical habitat
for conservation of land snails. India should also start
an initiative such as the Frozen Arc Project (www.
frozenark.org), where the viable cells of a number of
near extinct species could be stored for possible use in
the future.
rEfErEncES
aravind, n.a. (2005). Ecology of Land Snails of Western
Ghats. PhD Thesis, Department of Applied Zoology,
Mangalore University, Mangalore, 182pp.
aravind, n.a. & f. naggs (2012). Snailing up the Canopies
of Western Ghats, pp. 43–46. In: Devy, M.S., T. Ganesh
& A. Tripaty (eds.), Canopies of South Asia - A Glimpse.
ATREE, Bangalore.
aravind, n.a., K.P. rajashekhar & n.a Madhyastha
(2005). Species diversity, endemism and distribution of
land snails of Western Ghats, India; Records of Western
Museum Supplement 68: 31–38.
aravind, n.a., K.P. rajashekhar & n.a. Madhyastha
(2008). Micromolluscs of Western Ghats, India: Diversity,
distribution and threats. Zoosymposia 1: 281–294.
aravind, n.a., K.P. rajashekhar & n.a Madhyastha (2010).
A review of ecological studies on patterns and processes
of distribution of land snails of the Western Ghats, India.
Proceeding of World Congress of Malacology, 222pp.
Bar-Yosef Mayer, d.E. (2002). Archaeomalacology: Molluscs
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
Land snails of India
in former environments of human behaviour (1. An
Introduction to Archaeomalacology). 9th ICAZ Conference,
Durham.
Baur, B. & a. Baur (1993). Climatic warming due to thermal
radiation from an urban area as possible cause for the local
extinction of a land snail. Journal of Applied Ecology 30:
333–340.
Bezemer, t.M & K.J. Knight (2001). Unpredictable responses
of garden snail (Helix aspersa) populations to climate
change. Acta Oecologica 22: 201–208.
Boresma, d.P., P. Kareiva, f.W. fagan, a.J. clarak &
M.J. Hoekstra (2001). How good are endangered species
recovery plans? Bioscience 51: 643–649.
Bouchet, P. (1992). Extinction and preservation of species in
the tropical world: What future for Molluscs? American
Conchologist: 20: 20–24.
Budha, P.B. (2005). Nepalese malacology trails behind “catch
up”. Himalayan Journal of Sciences 3: 9–10.
Burch, J.B. (1955). 1962 How To Know the Eastern Land
Snails. Wm. C. Brown, Dubuque, 214pp.
Burner, a.G., E.G. raymond, r.E. rice & da G.a.B.
fonseca (2001). Effectiveness of parks in protecting
tropical biodiversity. Science 291: 125–128.
cameron, r.a.d. (1998). Dilemmas of rarity: biogeographical
insights and conservation priorities for land mollusca. Journal
of Conchology. Special Pubication 2: 51–60.
Čejka, T. & L. Hamerlík (2009). Land snails as indicators of
soil humidity in Danubian woodland (SW Slovakia). Polish
Journal of Ecology 57: 741–747
clark, J.a. & r.M. May (2002). Taxonomic bias in
Conservation Research. Science 297: 191–192.
davison, a. & S. chiba (2008). Contrasting response to
Pleistocene climate change by ground-living and arboreal
Mandarina snails from the oceanic Hahajima archipelago.
Philosophical Transactions of the Royal Society of London.
Series B: Biological Sciences 363: 3391–3400.
deepak, v., K. vasudevan & B. Pandav (2010). Preliminary
observation on the diet of the cane turtle (Vijayachelys
silvatica). Hamdaryad 34: 166–168.
dipti, H. & n. velho (2007). The need for studies on amphibians
in India. Current Science 92: 1032.
dunk, J.r., W.J. Zielinski & H.K. Preisler (2004). Predicting
the occurrence of rare mollusks in northern California
forests. Ecological Applications 14: 713–729.
Emberton, K.c. (1996). Conservation priorities for the
forest lower invertebrates of the south eastern half of
the Madagascar evidence from two land-snail clades.
Biodiversity and Conservation 5: 729–741.
forys, E.a., c.r. allen & d.P. Wojcikthe (2001). Likely
cause of extinction of the tree snail Orhtalicus reses reses
(Say). Journal of Molluscan Studies 67: 369–376.
Gaston, K.J. (1996). Biodiversity congruence. Progress in
Physical Geography 20: 105–112.
Gerlach, J. (2007). Short-term climate change and the
extinction of the snail Rhachistia aldabrae (Gastropoda:
Pulmonata). Biology Letters 3: 581–585.
S. Sen et al.
Golding, J.S. & J. timberlake (2002). How taxonomists can
bridge the gap between taxonomy and conservation science.
Conservation Biology 17: 1177–1178.
Graveland, J.r, van der WaL, J.H. van Balen & a.J. van
noordwijk (1994). Poor reproduction in forest passerines
from decline of snail abundance on acidiied soils. Nature
368: 446–448.
Gümüş, B.A. (2009). Anadolu’da Gerçekleştirilen
Arkeomalakolojik Çalışmalar. Paleontoloji-Stratigrai
Çalıştayı, 01–04 Ekim 2009, Kemaliye, Erzincan (Sözlü
Sunum, kitapçık, s. 22).
Herbert, d.G. (1998). Molluscan conservation in South
Africa: Diversity, issues and priorities, pp. 61–76.
In: Killeen, I.J., M.B. Seddon & A.M. Holmes (eds.).
Molluscan Conservation: A Strategy for the 21st Century.
Journal of Conchology Special Publication 2. Dorchester
(UnitedKingdom): Conchological Society of Great Britain
and Ireland, Dorset Press.
Hotopp, K.P. (2002). Land snails and soil calcium in central
Appalachian Mountain forest. South Eastern Naturalist 1:
27–44.
Jha, c.S., c.B.S. dutt & K.S. Bawa (2000). Deforestation and
land use changes in Western Ghats, India. Current Science
79: 231–238.
Killeen, I.J. & M.B. Seddon (2004). Molluscan Biodiversity
and Conservation. Journal of Conchology Special
Publication 3: 172.
Lydeard, c., r.H. cowie, W.f. Ponder, a.E. Bogan, P.
Bouchet, S.a. clark, K.S. cummings, t.J. frest, o.
Gargominy, d.G. Herbert, r. Hershler, K.E. Perez, B.
roth, M. Seddon, E.E. Strong & f.G. thompson (2004).
The Global Decline of Non-marine Molluscs. BioScience
54: 321–330
Madhyastha, n.a., r.G. Mavinkuruve & S.P. Shanbhag
(2004). Land snails of Western Ghats. In: Gupta, A.K., A.
Kumar & V. Ramakantha (eds). ENVIS Bulletin: Wildlife
and Protected Areas, Conservation of Rainforest in India
4: 143–151.
Mavinkurve, r.G., S.P. Shanbhag & n.a. Madhyastha
(2004a). Checklist of land snails of Karnataka. Zoos’ Print
Journal 19(11): 1684-1686.
Mavinkurve, r.G., S.P. Shanbhag & n.a. Madhayasta
(2004b). Non-Marine mollusks of Western Ghats. Zoos’
Print Journal 19(12): 1708–1711.
Mavinkurve , r.G., S.P. Shanbhag & n.a. Madhayasta (2005).
The land snails of Sharavati Wildlife Sanctuary. Records of
Zoological Survey of India 104: 123–131
Moritz, c., K.S richardson, S. ferrier, G.B Monteith &
J. Stanisic (2001). Biogeographical concordance and
eficiency of taxon indicators for establishing conservation
priority in a tropical rainforest biota. Proceedings of the
Royal Society of London B. 268: 1875–1881.
naggs, f. (1997). William Benson and the study of land snails
of British India and Ceylon. Archives of Natural History
24: 37–88.
naggs, f. & d. raheem (2005). Sri Lankan snail diversity:
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
3035
Land snails of India
S. Sen et al.
faunal origins and future prospects. Records of the Western
Australia Museum, Supplement No. 68: 11–29.
naggs, f., S. Panha & d. raheem (2006). Developing
Land Snail Expertise in South and Southeast Asia, a New
Darwin Initiative Project. The Natural History Journal of
Chulalongkorn University 6: 43–46
Pearce-Kelly, P., d. clarke, c. Walker & P. atkin (1997).
A conservation programme for the partulid tree snails of
the Paciic region. Memoirs of Museum of Victoria 56:
431–433.
Ponder, W.f. (1997). Conservation Status, Threats and Habitat
requirements of Australian Terrestrial and Freshwater
Mollusca. Memoirs of Museum of Victoria 56: 421–430.
Pounds, J.a. & M.I. crump (1994). Amphibian declines and
climate disturbance: the case of the golden toad and the
harlequin frog. Conservation Biology 8: 72–85.
Pounds, J.a., M.P.L. fogden & J.H. campbell (1999).
Biological response to climate change on a tropical
mountain. Nature 398: 611–615.
Prathapan, K.d., d.r. Priyadarsanan, t.c. narendran,
c.a. viraktamath, K.a. Subramanian, n.a. aravind
& J. Poorani (2006). Biological Diversity Act, 2002:
Shadow of permit-raj over research. Current Science 91:
1006–1007
raheem, c.d., f. naggs, r.c. Preece, Y. Mapatuna, L.
Kariyawasam & P. Eggleton (2008). Strucutre and
conservation of Sri Lankan land- snail assemblages in
frgamented lowland rainforest and village home gardens.
Journal of Applied Ecology 45: 1019–1028.
raheem, c.d., f. naggs, n.a. aravind & r.c. Preece (2009).
An Illustrated Guide to The Land Snails of Western Ghats
of India. The Natural History Museum London.
raheem, c.d., f. naggs, P.d.J. chimonides, r.c. Preece &
P. Eggleton (2009). Fragmentation and pre-existing species
turnover determine land-snail assemblages of tropical rain
forest. Journal of Biogeography 36: 1923–1938.
rajashekhar, K.P. & n.a. aravind (in press). Perturbation
in the pattern of land snail diversity due to anthropogenic
disturbance to wet evergreen forests of the Western
Ghats, India. In: Priyadarsanan, D.R., M.S. Devy, K.A.
Subramanian, N.A. Aravind & N. Seena (eds.). Invertebrate
Diversity and Conservation in the Western Ghats. ATREE,
Bangalore.
ramakrishna & S.c. Mitra (2002). Endemic land molluscs
of India. Records of Zoological Survey of India, Occasional
Paper 196: 1–65
ramakrishna, S.c. Mitra & a. dey (2010). Annotated
Checklist of Indian Land Mollusc. Zoological Survey of
India, Kolkata, 359pp.
rao, H.S. (1924). Asiatic Succineidae in the Indian
Museum. Records of Indian Museum 26: 367–408.
régnier, c., B. fontaine & P. Bouchet (2009). Not Knowing,
Not Recording, Not Listing: Numerous Unnoticed Mollusk
Extinctions. Conservation Biology 23: 1214–1221.
richards, P.M & a. davison (2010). Adaptive Radiations:
Competition Rules for Galápagos Gastropods. Current
3036
Biology 20: R28–R29.
Satyamurti, S.t. (1960). The land and freshwater mollusca in
the collection of the Madras Government Museum. Bulletin
of the Madras Government Museum, Madras.
Schilthuizen, M., t-S.Liew, B.B. Elhahan & I. Lackmanancrenaz (2007). Effects of Karst Forest Degradation on
Pulmonate and Prosobranch Land Snail Communities in
Sabah, Malaysian Borneo. Conservation Biology 19: 949–
954.
Seddon, M. (1998). Red listing of Molluscs: a tool for
conservation? Journal of Conchology (Special Publication)
2: 27–44.
Shimek, B. (1930). Land Snails as Indicators of Ecological
Conditions. Ecology 11: 673–686.
Simone, L.r.L. (1999). Mollusca Terrestres, p. 5: 3–8. In:
Brandão, C.R. & E.M. Cancello, (Org.). Biodiversidade
do Estado de São Paulo, Brasil: síntese do conhecimento
ao inal do século XX: Invertebrados Terrestres. FAPESP
Editora, São Paulo, São Paulo, Brasil.
Sodhi, n.S. (2008).Tropical biodiversity loss and people- a
brief review. Basic and Applied Ecology 9: 93–99.
Solem, a. (1984). A world model for land snail diversity
and abundance. In: Solem A. & A.C. van Bruggen (eds).
Worldwide snails: Biogeographical Studies on Non-Marine
Mollusca. E.J. Brill/Dr W. Backhuys, Leiden, 289pp.
Sólymos, P. & Z. fehér (2005). Conservation prioritization
using land snail distribution data in Hungary. Conservation
Biology 19: 1084–1094.
Sternberg, M. (2000).Terrestrial gastropods and experimental
climate change: A ield study in a calcareous grassland.
Ecological Research 15: 73–81.
Subbarao, n.v. & S.c. Mitra (1979). On the land and
freshwater molluscs of Pune district, Maharastra. Records
of Zoological Survey of India 75: 1–37.
thomas, c.d., a. cameron, r.E. Green, M. Bakkenes,
L.J. Beaumont, Y.c. collingham, B.f.n. Erasmus,
M.f. de Siqueira, a. Grainger, L. Hannah, L. Hughes,
B. Huntley, a.S. van Jaarsveld, G.f. Midgley, L. Miles,
M.a. ortega-Huerta, a.t. Peterson, o.L. Phillips &
S.E. Williams (2004). Extinction risk from climate change.
Nature 427: 145–148
Wade, c.P., P.B. Mordan & f. naggs (2006). Evolutionary
relationships among the Pulmonate land snails and slugs.
Biological Journal of the Linnaean Society 87: 593–610.
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
Land snails of India
S. Sen et al.
Appendix 1. An illustrated guide to the land snails in india (Raheem et al. 2009)
Author Details: MR. SANDEEP SEN is a research
intern at the Conservation Genetics Department
at ATREE. Basically a geneticist by training,
He is studying phylogenetics and population
genetics of land snails of the Western Ghats.
He is also developing species pages for Indian
mollusk fauna.
DR. RAVIKANTH leads the conservation Genetics
Lab at ATREE. He has been actively involved
in working out genetic structure of threatened
species in the Western Ghats. He has
undertaken a number of research projects
related to the conservation and species
recovery of economically important and/or
endangered species.
DR. ARAVIND is a Fellow at ATREE. He has been
working on ecology and taxonomy of non-marine
mollusk of the Western Ghats for a decade. He
is collaborating with Natural History Museum,
London on non-marine mollusc taxonomy.
Journal of Threatened Taxa | www.threatenedtaxa.org | September 2012 | 4(11): 3029–3037
3037