Journal of Threatened Taxa |
www.threatenedtaxa.org | 26 March 2023 | 15(3): 22883–22888
ISSN 0974-7907
(Online) | ISSN 0974-7893 (Print)
https://doi.org/10.11609/jott.4744.15.3.22883-22888
#4744 | Received 17
July 2022 | Final received 07 February 2023 | Finally accepted 26 February 2023
Occurrence of opportunistic
invasive macroalgal genus Caulerpa and Halimeda opuntia in coral reefs of Gulf of Mannar
Chatragadda Ramesh 1 , Koushik Sadhukhan 2, T. Shunmugaraj
3 & M.V. Ramana Murthy 4
1–3 National Centre for Coastal
Research (NCCR), Ministry of Earth Sciences (MoES),
Mandapam Field Research Centre, Mandapam Camp, Ramnathapuram,
Tamil Nadu 623519, India.
4 National Centre for Coastal
Research (NCCR), Ministry of Earth Sciences (MoES), Pallikaranai, Chennai, Tamil Nadu 600100, India.
1 chrameshpu@gmail.com
(corresponding author), 2 sadhukhan.1985@gmail.com, 3 raj@nccr.gov.in,
4 mvr@nccr.gov.in
Abstract: Investigations on indigenous and
non-indigenous invasive flora and fauna of a certain geographical area are
always important to assess their impact on native biodiversity and control
their spread by making conservation strategies to protect biodiversity. In this
study, we have encountered overwhelming growth of six seaweed species, Caulerpa racemosa, C.
serrulata, C. sertularioides,
C. taxifolia, C. peltata,
and Halimeda opuntia on
the reef flat. These algal covers on reef area appear to compete with coral
polyps and restrict their settlement and resilience. Our concern on invasive
species distribution in Gulf of Mannar revealed these
overgrowing invasive species, which can become potential threats to coral
reefs, benthic diversity, and reef assemblage. These observations will help us
to develop multidisciplinary management approaches related to the expansion,
mitigation, and control of these opportunistic invasive species. Further
seasonal monitoring on these algal species is under process to investigate
their spatial shift patterns on various coral forms.
Keywords: algal blooms, algal cover,
coral-algal interactions, reef conservation, reel flat, reef resilience, reef restoration, reef threats, seaweed,
seaweed utilization.
Editor: R. Ravinesh,
Centre for Marine Living Resources and Ecology,
Ministry of Earth Sciences, Kochi, India. Date of publication: 26 March 2023
(online & print)
Citation: Ramesh, C., K. Sadhukhan,
T. Shunmugaraj & M.V.R. Murthy (2023). Occurrence of opportunistic invasive
macroalgal genus Caulerpa and Halimeda opuntia in coral reefs of Gulf of Mannar. Journal of Threatened Taxa 15(3): 22883–22888. https://doi.org/10.11609/jott.4744.15.3.22883-22888
Copyright: © Ramesh et al. 2023. Creative Commons Attribution 4.0 International License. JoTT allows
unrestricted use, reproduction, and distribution of this article in any medium
by providing adequate credit to the author(s) and the source of publication.
Funding: The project is funded by Ministry of Earth Sciences, Government of India under “Coastal Research scheme” implemented by National Centre for Coastal Research (NCCR), Chennai.
Competing interests: The authors declare no competing interests.
Author
details: Dr. Ramesh Chatragadda has been working on different aspects of coral reefs, such as coral diseases, coral restoration, coral reef monitoring, and reef diversity. His research is aimed at molecular taxonomy of reef communities and microbial ecology of coral communities for drug discovery and reef conservation. Dr Koushik Sadhukhan has
been working in NCCR since 2018. He has experienced with eight years of R & D work on coral reef monitoring and coral restoration programme in India. His research interest lies in the area of marine biology, taxonomy and ecology. Dr T. Shunmugaraj is the senior scientist of NCCR (scientist-G) and he has excellent research experience of 27 years in the field of marine biology and mariculture. His research is focused on
marine biodiversity assessment in Indian Ocean. He has also worked on stock enhancement and sea ranching programme of cultivable marine species in India. Dr M.V. Ramana Murthy serves
as scientist-G and director of NCCR who has been engaged in R & D work for 30 years in the field of offshore and coastal hydrodynamics, coastal conservation and Information service programme in India.
Author contributions: RC conceived the study, conducted the fieldwork, and prepared the manuscript. KS helped in feild work, wrote and edited the manuscript. TS designed the study, assisted in the field study, corrected the draft manuscript, and supervised the project. MVRM coordinated the study and gave technical advice.
Acknowledgements: The authors are thankful to the
Ministry of Earth Sciences, New Delhi, for financial support.
Introduction
Invasive species belonging to
flora and fauna can lead to adverse effects such as altering the biodiversity
and community structure (Antolić et al. 2008),
and can even invade or cause mortality
to flora (de Villèle & Verlaque
1995) and fauna (Žuljevic et al. 2011). A study on
the impact of invasive Caulerpa taxifolia
on seagrass beds of Posidonia oceanica has revealed degradation of seagrass beds in the
west of Menton, France (de Villèle
& Verlaque 1995). Various authors have also
reported the distribution of indigenous invasive species, including Ulva fasciata, Cladophora
sericea, and Dictyosphaeria
cavernosa in the Hawaiian Islands (Smith et al. 2002), and non-indigenous
invasive algae, including Caulerpa verticillata in the Gulf of California (Perez-Estrada
et al. 2013), Lophocladia lallemandii (Kersting et al.
2014), Caulerpa racemosa
var. cylindrica and C. taxifolia
in Mediterranean region (Žuljevic et al. 2011), and C.
racemosa in the Gulf of Arzew,
Algerian coast (Bouiadjra et al. 2010). Currently,
the genus Caulerpa has been indicated as an
invasive species by the International Union for Conservation of Nature (IUCN)
Centre for Mediterranean Cooperation (Otero et al. 2013).
The invasive Caulerpa
species spread rapidly all along the Mediterranean countries (Klein & Verlaque 2008). Since then, the issue of invasive algae in
other parts of the world was also undertaken in different countries, as
mentioned above. Recently, studies on invasive flora from the Gulf of Mannar region are gaining more importance due to their reef
damaging nature. A few studies showed the invasion of Kappaphycus
alvarezii on coral reefs in Krusadai
and Mulli Islands (Edward et al. 2015), Caulerpa sp. and Halimeda
sp. in the Gulf of Mannar and Palk Bay coral reefs
(Manikandan & Ravindran 2016), and Turbinaria
in the Gulf of Mannar corals (Ramesh et al. 2019). However, there is very little information on
the current distribution patterns of invasive seaweeds around the Gulf of Mannar Islands. Therefore, during coral reef monitoring,
we investigated invasive species
distribution in the Gulf of Mannar group of
Islands.
Material
and Methods
Reef monitoring surveys were
carried out during August to November 2018, from Manoli
Putti and Hare Islands under the Gulf of Mannar
region, southeastern coast of Tamil Nadu, India. Several underwater dives on
fringing reefs of these two islands revealed moderate bloom forming and
overwhelming growth of four green seaweeds Caulerpa
serrulata, C. racemosa,
C. sertularioides, and C.
peltata on live and dead corals.
Underwater photographs of these bloom-forming species were documented using
Nikon Coolpix underwater camera. Species identification was made using standard
identification keys and AlgaeBase (Guiry & Guiry 2018).
Results
and Discussion
Caulerpa racemosa, C. serrulata,
C. sertularioides, C. taxifolia,
C. peltata, and Halimeda opuntia are usually seen in
smaller size on corals and rubbles. Their usual occurrence on reefs or rubbles
used to be within the size range <5–>30 cm. However, their bloom forming
nature identified by recording their overwhelming spread on corals ranged
>30 cm–>1 m. Blooms of these
species overwhelming on the coral reefs of Mandapam group of Islands were
recorded during our study (Image 1a–h; Image 2a–f). The favourable
physicochemical conditions that promote their spread in the reef area are
poorly understood. These algal species have displayed a distinct distribution
in the reef environment, where C. sertularioides
and C. racemosa grew on rubbles, rocky
substratum, and Porites sp.; C. serrulata
on dead Acropora corals and live Porites species; and C. peltata on live Acropora corals. C.
taxifolia has formed small patches on rubbles and near reef slopes, and
is also found to grow mostly on Montipora digitata and Porites solida
rather than on Acropora. Interestingly, C. racemosa was observed to grow on multiple species of
corals such as Porites, Acropora, and Montipora.
C. racemosa, H. opuntia,
and C. taxifolia grew together with no inhibition activity
against each other. H. opuntia was found to cover a few massive Porites
coral colonies in Manoliputti Island. While its
spread in seagrass beds was also observed (Image 2a–f), its actual impact on
seagrass beds is yet to be studied.
We did not observe any grazers
that preferred to feed on these Caulerpa
species. Although C. taxifolia was found in the reef flats but
were not seen to occur profusely. These algal blooms appear to be unsuitable
for the development of corals due to their proliferation, smothering the
corals. Also, overwhelming algal growth inhibits light penetration required for
zooxanthellae to generate energy for polyps. These reasons appear to inhibit
the growth of coral polyps and restrict juvenile corals’ settlement on the dead
reefs or rubble in the Gulf of Mannar reefs.
Previous reports indicated that C.
racemosa and C. taxifolia
could inhabit the entire reef area, which would ultimately undermine the
resilience of corals (Hoey et al. 2011). The impact
of these Caulerpa species on Gulf of Mannar’s reef environment is yet to be studied in detail.
However, the present study observations are challenging the issues related to
the algal destruction and conservation of corals and coral reef biodiversity from
invasive algae.
A recent study revealed that a
feeding deterrent activity assay on green algae C. peltata,
C. sertularioides, and C. taxifolia
species display highest deterrent activity of >80% (Rajan
& Padmakumar 2017). While C. cupressoides and C. fergusonii
showed moderate deterrent activity, C. scalpelliformis
and C. microphysa exhibited negligible
deterrent activity (Rajan & Padmakumar
2017). Experimental studies also show that grazing on C. taxifolia
resulted in the loss of spines and less gonosomatic
ratios in sea urchin Paracentrotus lividus (Boudouresque et al.
1996). Later it was observed that high production of toxic and repellent
chemical metabolite ‘caulerpenyne’ in summer causes
sea urchins to avoid C. taxifolia (Lemee
et al. 1996). The deterrent activity exhibited by C. taxifolia
might be the reason that restricts grazers not to feed on it.
Whereas the same compound
produced by C. racemosa had not
displayed any deterrent activity towards herbivorous surgeon fish Zebrasoma flavescens
(Wylie & Paul 1988), and it was highly preferred by both juvenile and adult
rabbitfish Siganus argenteus (Paul et
al. 1990). In this study, we have not found any grazers feeding on these Caulerpa species during our underwater observations.
A recent study also indicated that C. racemosa
distribution could drastically change over time by spreading from deep water to
the shallow waters, as observed in the Columbretes
Islands, Mediterranean Sea (Kersting et al. 2014). A
study also suggested that overgrowth of C. racemosa
via chemotropism results in smothering or even death of sponge Sarcotragus spinosulus
(Žuljevic et al. 2011).
Caulerpa species are well known as edible
seaweeds in eastern Asian countries such as China, Japan, Korea, Philippines;
southeastern Asian countries like Indonesia, Vietnam; and Indo-Pacific regions
(Kaliaperumal & Chennubhotla
2017). In India, C. lentillifera is cultured
on the Gulf of Mannar coast (Mary et al. 2009). But
utilization of these six species in India has not been implemented so far.
Hence, they remain an untapped and unutilized food resource from the Indian
Coast. Thus, Caulerpa species can be considered
a potential natural edible seafood to the increasing population in India.
Crustose coralline algae are well
known as they support the settlement of coral polyps (Tebben
et al. 2015). Although we have found very few coralline algae in our surveys at
Hare Island and Manoli Island, the coral recruitment
was appreciable on the dead corals free from these algae. However, there is
high competition for substrata between algae and corals, similar to previous
reports (McCook et al. 2001). Therefore, monitoring the bloom-forming
invasive seaweeds in terms of their reproductive strategies and favourable conditions that promote their propagation is
essential for developing remedies. Reports evidenced that ease dispersion and
spread of Caulerpa species is mostly due to
fishing nets, anchors, boats, and aquaria (Otero et al. 2013). Studies from the
Mediterranean Sea have shown the rapid spread of invasive C. taxifolia
by fragment mechanism (Ceccherelli & Cinelli
1999; Smith & Walters 1999). Therefore, further investigations are
important to understand the temporal and spatial expansion of C. racemosa, C. serrulata,
C. sertularioides, C. taxifolia,
and C. peltata in these Islands.
Also, multidisciplinary approaches are essential to address issues related to
invasive species distribution dynamics, impacts, management, and utilization in
the Gulf of Mannar. Also, the impact of environmental
factors such as light, temperature, and water quality in different seasons
should be analysed in future studies to understand
bloom dynamics.
For
images - - click here for full PDF
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