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Temporal variations in the diversity of true crabs (Crustacea: Brachyura) in the St Lucia Estuary, South Africa.

INTRODUCTION

The St Lucia Estuary is a crucial component of the iSimangaliso Wetland Park, which is a UNESCO World Heritage Site. It is the largest estuarine lake system in Africa and covers approximately 80 % of the total estuarine area of KwaZulu-Natal, South Africa (Begg 1978). The estuary is characterised by prolonged mouth closure and experiences large-scale periodic fluctuations in physico-chemical characteristics due to stochastic flood and drought events (Begg 1978; Owen & Forbes 1997; Pillay & Perissinotto 2008). The shallow nature of the lake, combined with its large surface area, results in high evaporative loss. The system experiences additional stress from increased human numbers, forestry and agricultural developments in the catchment area around the lake (MacKay et al. 2010; Cyrus et al. 2011). These activities include manipulation of the St Lucia Estuary mouth, freshwater abstractions from surrounding rivers (Fig. 1a) and the increase in sugar cane farming and number of tree plantations in adjacent areas (Whitfield & Taylor 2009), all of which lead to an intensification of drought conditions. As a result, the St Lucia Estuary experiences regional hypersalinity at times, especially in the northern part of the lake where salinities occasionally exceed 200 ppt (Whitfield & Taylor 2009; Cyrus et al. 2011). In drought conditions, however, the Back Channel (Fig. 1b) may provide a connection to the Mfolozi River and the ocean, thereby supplying water to the system, allowing limited biological migrations into St Lucia from the sea, and decreasing the overall salinity of the Narrows and estuary mouth (Whitfield & Taylor 2009). Most of the recent research on the system has been carried out during drought events (Cyrus et al. 2011).

[FIGURE 1 OMITTED]

The instability and ongoing degradation of the estuarine lake both have a significant impact on associated biodiversity (Schlacher & Wooldridge 1996; MacKay et al. 2010). Hypersaline conditions lead to movement of stenohaline species out of the area and extinction of less mobile organisms, resulting in changes in community structure and species richness (Schlacher & Wooldridge 1996; Owen & Forbes 1997). The decrease in salinity caused by freshwater run-off from the Mfolozi promotes biodiversity (Whitfield & Taylor 2009). Persistent mouth closure (since June 2002) has resulted in limited juvenile recruitment from the ocean and no tidal exchange, which has led to desiccation of the extensive mangrove swamps that occur in the regions of the mouth and Narrows (Adams et al. unpubl. data).

Brachyurans (true crabs) play an integral role in the functioning and maintenance of the mangrove ecosystem (Day 1981). Herbivorous and detritivorous species are important components of mangroves as they feed on leaf-litter and decaying organic matter present on the forest floor (Dahdouh-Guebas et al. 1997). They facilitate the decomposition process by breaking down organic matter and exposing it to microbes, thus playing an important role in nutrient cycling and energy flow in these ecosystems (Steinke et al. 1993; Cumberlidge et al. 2009). In addition, burrowing species are important for aeration and oxygenation of the dense mangrove mud. The creation of burrows further allows for movement of nutrients and water through the soil, which in turn is beneficial for the growth and development of mangrove seedlings (Steinke et al. 1993). Brachyurans also modify sediment topography and associated microfloral structure (Skov et al. 2002).

The biological survey conducted by Millard and Broekhuysen (1970) in the St Lucia Estuary revealed the presence of twenty-six brachyuran species, all located mainly within the Narrows and estuary basin. However, the same areas are currently dominated by only a few brachyuran species, such as Paratylodiplax blephariskios (Stebbing, 1924), Hymenosomaprojectum Dawson & Griffiths, 2012 together with the mangrove crabs Neosarmatium africanum Ragionieri, Fratini & Schubart, 2012 and Chiromantes eulimene (De Man in Weber, 1897) (Owen & Forbes 1997; MacKay et al. 2010). Moreover, the mangroves along the Narrows have been separated from the ocean for virtually the past 10 years (Whitfield & Taylor 2009). Thus, the unstable salinity levels in many parts of the lake are believed to impact on brachyuran diversity negatively (Owen & Forbes 1997). Land use, mostly in the form of agriculture and forestry, is also a major contributor to the decreased diversity within the system, as it leads to deterioration in water quality, reduction in freshwater inflow, and urbanisation of the natural habitat (Darwall et al. 2009). Brachyurans endemic to the north-east region of KwaZulu-Natal are especially vulnerable to environmental degradation, given their restricted distribution range.

Considering that the last thorough survey of brachyuran diversity in St Lucia was conducted by Millard and Broekhuysen in 1970, the primary aim of this study was to investigate current brachyuran diversity within the estuarine system, with particular emphasis on the Narrows, estuary basin and estuary mouth. The extent to which the brachyuran community has been altered was determined by comparing the distribution and abundance of three key species and examining records of past and present surveys. An additional aim of this study was to provide an illustrated, annotated checklist of all brachyuran species recorded historically in the area, in order to update the current database of brachyurans known from the system and to provide an identification guide for future research and management purposes.

MATERIAL AND METHODS

Sampling sites

The study was conducted at the St Lucia estuarine lake, located between 27[degrees]52'S to 28[degrees]24'S and 32[degrees]21'E to 32[degrees]34'E. The estuary consists of three lakes, viz. False Bay, South Lake and North Lake, all connected to the mouth via a 20 km channel called the Narrows. Sampling was undertaken in both the wet season (17-19 March 2012) and the dry season (10-13 July 2012) at various representative sites around the lake including Charter's Creek, Lister's Point, the St Lucia mouth, the boardwalk mangroves near the mouth, the Bridge, Hell's Gate, Makakatana, Fani's Island, Honeymoon Bend (picnic site), Shark Basin (near the dredge outlet pipe) and the Back Channel (Fig. 1).

Physico-chemical parameters

Salinity (ppt), temperature ([degrees]C) and turbidity (NTU) were recorded through the use of a YSI[R] 6600 data-logger. Further data on salinity, temperature and turbidity were obtained from past records at the Iziko South African Museum (Cape Town) and from published literature.

Published literature and museum records

All literature relevant to the abundance and diversity of brachyurans in St Lucia was perused and necessary data extracted. Preserved specimens were examined at the Iziko South African Museum, which houses the largest collection of brachyurans in the country, along with records of historical surveys undertaken at St Lucia and dating back to 1948. No brachyuran collections or records pertaining to St Lucia were found at the Durban Natural Science Museum or the KwaZulu-Natal Museum (Pietermaritzburg).

Collection methods

During the current survey of 2012, various methods were employed for the collection of specimens, the most useful being active search and capture. A shovel was used to dig up burrows, while a Zabalocki-type Ekman grab and modified D-net were used in softer sediments and vegetation patches. Baited pitfall traps were set at the bridge and monitored over 2 days. In the case of D-net tows, quantitative samples were taken and quadrats were counted for selected species to determine their abundance.

Measuring distribution and abundance for selected species and sites

Distribution and abundance data were collected for certain species so as to compare past and present conditions. Included were P. blephariskios, a species endemic to the region, H. projectum, a species once distributed throughout the lake, and N. africanum, currently the dominant species in the system. Abundance was represented using the density code system of Owen & Forbes (1997) for H. projectum and P blephariskios, where a density (ind.m-2) of 1-10 is very rare (V), 11-100 is rare (R), 101-1000 is common (C), 1001-10000 is abundant (A) and > 10001 is super-abundant (S). Estimates of N. africanum abundance were obtained using a crab : burrow ratio of 0.81 (Skov et al. 2002).

Compilation of a photographic database

Dorsal and ventral images of a representative specimen of each species were obtained using a Canon Powershot G11 digital camera. Either female or male specimens were used for this purpose on the basis of availability, but when species exhibited a marked sexual dimorphism (e.g. Uca spp.), only males were used. Photographs were taken using only fresh specimens with full colours, immersed in a shallow layer of distilled water in a white tray. Photographs were edited using Corel Photo-Paint X3 for Windows, Picasa 5, Paint and Microsoft Office Picture Manager.

RESULTS

In total, thirty brachyuran species were recorded at St Lucia from 1948 to 2012. In 1948/49, twenty species were found in the system (Millard & Broekhuysen 1970). These are listed in Table 1 and include four of the five sesarmid species, two fiddlers and the freshwater crab Potamonautes sidneyi (Rathbun, 1904). Six additional species were collected in 1964/65 (Millard & Broekhuysen 1970) (Table 1). In 2012, seventeen species were found in and immediately around the St Lucia estuarine system (this study), including the mangroves near the Mfolozi inlet. Four of these crabs were previously unrecorded from the system, viz. Ocypode madagascariensis Crosnier, 1965, Ocypode ryderi Kingsley, 1880, Neosarmatium smithi (H. Milne Edwards, 1853) and Potamonautes cf. lividus, which may represent a new species.

As regards sesarmids, the following inhabitants of mangrove forests were recorded from 1948 to 2012: N. africanum, Parasesarma catenatum (Ortmann, 1897) and C. eulimene. Perisesarma guttatum (A. Milne-Edwards, 1869) has been known from the system since 1964 and Neosarmatium inerme (De Man, 1887), which was present in 1948, has not since been seen in the system. Varuna litterata (Fabricius, 1798) was found near Charter's Creek and on the mudbanks of the Mfolozi in 1948, but currently has been located alive only at the mouth. Dead specimens were also collected after a flood event at False Bay in March 2012, along the shore just south of Lister's Point.

Of the total of thirty species recorded in the system, nine are known only from single records. Aside from N. inerme, Acanthonyx quadridentatus (Krauss, 1843) and Acanthonyx scutellatus MacLeay, 1838 were both recorded only in 1948, in the channel connecting the Mfolozi to St Lucia. Ptychognathus onyx Alcock, 1900 was found in the mud, also at the mouth, in 1949. Macrophthalmus (Mareotis) depressus Ruppell, 1830 and Uca (Gelasimus) vocans (Linnaeus, 1758) were both collected at the Mfolozi inlet, while Uca (Tubuca) urvillei (H. Milne Edwards, 1852) was found at Shark Basin in 1964. Uca (Paraleptuca) chlorophthalmus (H. Milne Edwards, 1852) was recorded at the Mpate River mouth in 1949. Metopograpsus thukuhar (Owen, 1839) was collected in the South Lake at Catalina Bay and at Shark Basin in 1948. To complete the illustrated checklist, specimens of Ashtoret lunaris (Forskal, 1775), P sidneyi, Cardisoma. carnifex (Herbst, 1796), M. thukuhar, Portunus pelagicus (Linnaeus, 1758), U. (P) chlorophthalmus and U. (T.) urvillei, none of which currently occur in the system, were obtained from a variety of locations along the KwaZulu-Natal coast.

The range of Hymenosomaprojectum (Fig. 2) appears to have contracted since the survey conducted in 1948 (Day et al. 1954; Millard & Broekhuysen 1970), when the species occurred throughout the system. In 2012, it was found only at Fani's Island, Charter's Creek and Catalina Bay, all stations within the South Lake. The distribution of H. projectum probably fluctuates with the state of the lake and this current, more restricted distribution is possibly due to the drought conditions that have prevailed in the region until recently. P. blephariskios was recorded throughout the Narrows and at the estuary mouth in 1948 (Day et al. 1954) (Fig. 2). However, during the 2012 survey, the species was not encountered in the system. It was only found along the banks of the Mfolozi and the Back Channel which leads into St Lucia. The mangrove crab, N. africanum, is the only species which has maintained its original distribution (Fig. 2). It still occurs where it was previously found in 1948, from the estuary mouth up to the Mpate River mouth in the Narrows (Millard & Broekhuysen 1970; Owen & Forbes 1997).

[FIGURE 2 OMITTED]

In terms of abundance (Table 2), P blephariskios was regarded as common to abundant in the Narrows during 1994 (Owen & Forbes 1997). In 2005, it was recorded as rare in this region (Pillay & Perissinotto 2008) and in 2012, its status was rare in the Mfolozi Back Channel. H. projectum has been designated as either rare or very rare in the Narrows and South Lake and its abundance appears to fluctuate erratically. N. africanum has always been very rare at all locations (Pillay & Perissinotto 2008).

DISCUSSION

Only 13 of the originally recorded brachyuran species appear to be in the St Lucia system at present, with 5 additional species having being found. As most of these species occur naturally in mangroves or on the beach berm, they are the least affected by the extreme salinity fluctuations of the system, which at times experiences a reverse salinity gradient. The exceptions were all at the mouth or the Mfolozi inlet. P blephariskios individuals were seen burrowing in the muddy banks of the Mfolozi near the inlet; Scylla serrata (Forskal, 1775) was found dead at the mouth and alive on the banks of the Mfolozi; and V. litterata occurred regularly at the mouth.

Therefore, the distribution range of brachyurans around the estuarine lake has changed compared to earlier surveys (Millard & Broekhuysen 1970). In the late 1940s, H. projectum specimens were netted as far north as the North Lake, while V. litterata was found at False Bay (Fig. 1). In the 1960s, P pelagicus occurred as far north as Catalina Bay. In 2012, Fani's Island was the northernmost point of collection of live specimens previously recorded in the system and only H. projectum was found here in high abundance, while only dead V. litterata were collected at False Bay. However, P. sidneyi was present in a freshwater stream flowing into the lake just north of Lister's Point and P. cf. lividus was netted from ephemeral pans between Dukandlovu and Lister's Point. This species is yet to be conclusively identified and appears to occupy only ephemeral pans, as it has not yet been found in any other habitat. These pans represent a harsh but unique habitat niche for specialised species, as they are often waterless for long periods during the dry season. It has been suggested by Millard and Broekhuysen (1970) that salinity levels affect crab distribution. They reported an "excessively high" salinity of 89 ppt at False Bay. In recent years, salinity has been much higher in this region, even exceeding 200 ppt at times during 2010-2011 (Carrasco & Perissinotto 2012).

Brachyurans play a prominent role in maintaining mangrove forests, as they facilitate a process known as tidal flushing. The construction of burrows allows for oxygenation of the dense mangrove mud (Vopel & Hancock 2005). Tidal fluctuations or, in the case of St Lucia, wind-driven fluctuations in water levels transport nutrients through the mud and burrows, allowing for the removal of ammonium and other forms of nitrogen by the outgoing flow. Even in systems where tidal movement is negligible or completely absent, the feeding and burrowing behaviour of the inhabitant brachyurans is vital to preservation of the mangrove system. In a study conducted by Smith et al. (1991) in Queensland, Australia, mangrove crabs were removed over a 12-month period to determine whether or not burrowing activity influenced nutrient concentrations, soil sulphide concentration, forest productivity and growth. It was determined that burrowing affects soil aeration, which in turn affects reproduction and growth of mangrove forests. Furthermore, feeding and selectivity of feeding allows for recycling of nutrients and shaping of the mangrove community structure, respectively (Lee 1998).

The genus Uca and the family Sesarmidae are the two most important taxa in South African mangroves in terms of abundance (Skov et al. 2002). Uca maintains an important flow of nutrients by feeding on microphytobenthos, making this source of production available to higher trophic levels (Nagelkerken et al. 2008). By feeding largely on benthic micro-organisms, they alter both the sediment topography and composition of the mangrove forest floor (Skov et al. 2002). However, as this genus has an obligate marine phase for its larvae, it is unable to colonise when there is no sea-estuary connection (Papadopoulos et al. 2002). The current loss of Uca from the St Lucia mangroves is detrimental. There is a similar problem in respect of the swimming crab S. serrata. The only two specimens of this species collected from the system during 2012 were both dead. Hill (1975) reported a similar phenomenon: large numbers of dead and dying S. serrata were found following heavy rainfall in Eastern Cape estuaries. This indicates that the species is drastically affected by a sudden change in physico-chemical parameters, despite its euryhaline nature (Forbes & Hay 1988). The negative impact on the St Lucia S. serrata population could be exacerbated by the need for females to move out to sea with their fertilised eggs in order to release their larvae (Hill 1975). The closure of the mouth means that females have difficulty reaching the sea and larvae have limited access to the estuary once they are released.

In terms of abundance, the brachyurans belonging to the family Sesarmidae are dominant in St Lucia, currently occurring at all mangrove sites around the estuarine lake. Sesarmids feed predominantly on leaf litter in the mangroves (Dahdouh-Guebas et al. 1997) and have been found to remove up to 67 % of all leaf litter produced in a day (Olafsson et al. 2002). N. africanum is the largest and most common mangrove sesarmid (Skov et al. 2002) in South Africa. Individuals are mainly herbivorous, with mangrove leaf litter forming approximately 75 % of the diet of this species (Steinke et al. 1993). Individuals compete for fallen leaves and drag them back to their burrows where they are left to senesce for the removal of unpalatable tannins. They are then consumed. In this way, mangrove production is retained within the ecosystem, while detritus is broken down, leading to a faster rate of decomposition and facilitating the biogeochemical cycle within the mangrove ecosystem (Steinke et al. 1993; DahdouhGuebas et al. 1997). Additionally, the floor remains relatively free from leaf litter and this is especially important in areas lacking tidal influence. N. africanum usually inhabits the landward side of mangrove forests and can survive in fairly dry areas (DahdouhGuebas et al. 1997), largely due to its semi-terrestrial, air-breathing habits (Lee 1998). This could be the main reason for their success and dominance around the St Lucia Estuary and lake system (Fig. 2).

In all surveys, the mouth and the Mfolozi inlet have appeared to exhibit the highest diversity in terms of brachyuran species. A Mfolozi-St Lucia link can be considered a particularly valuable feature of the system. Because of its fairly stable physico-chemical properties, the Mfolozi could serve as a refuge when hypersalinity prevails in the St Lucia estuarine lake. This possibility is evident when the diversity of the Mfolozi mangroves is compared to those fringing St Lucia. In 2012, the mangroves around St Lucia were mostly inhabited by only one brachyuran species, with the exception of the boardwalk mangroves and the Bridge, which had two and three inhabitant species, respectively. On the other hand, six species were found at the Mfolozi mangroves, including Uca annulipes (H. Milne Edwards, 1837). The Mfolozi is also currently the only habitat of P blephariskios in the entire system (Fig. 2). A species endemic to the southeast coast of Africa (Owen 2003), it occurs abundantly in muddy substrata where it plays an important role as a deposit- and filter-feeder (De Villiers et al. 1999). Until recently, the Mhlathuze and St Lucia estuaries both supported the largest populations of P blephariskios and in 1997, its average density in St Lucia was calculated at 1500 ind.m-2 (Owen & Forbes 1997). Owen and Forbes (2002) stated that the species is euryhaline and able to survive in the St Lucia Narrows at a maximum salinity of 55 ppt. This salinity tolerance was, however, affected by food availability and temperature and a marked decline in abundance was observed at a salinity of 38 ppt, whereas torpor was induced at 50 ppt. Moreover, the primary method of dispersal for the species is tidal and the lack of tidal fluctuation in the Narrows and the estuary in general means that P blephariskios has a limited means of dispersal (Owen & Forbes 2002). As the system experiences highly fluctuating salinity levels, it is unlikely that P. blephariskios would be able to survive the current conditions. Owen et al. (2010) have suggested that during periods of crisis, the Mfolozi-Msunduzi system may provide a refuge to organisms that normally occur in the St Lucia estuarine lake. Indeed, P. blephariskios is found at the Back Channel and, should favourable conditions be restored, dispersal and recolonisation from this "refuge population" could occur via a newly restored Mfolozi- St Lucia link (Owen et al. 2010). This is an important consideration and supports the recently implemented reconnection of the St Lucia Estuary to the Mfolozi.

The North Lake and False Bay are the least diverse areas, inhabited by the lowest number of species found in the various regions. In 1948, there were two species present at each of these two locations (Day et al. 1954; Millard & Broekhuysen 1970) (Table 3), while in 2012, only V. litterata, was found (dead) in False Bay and had probably been washed downstream from a nearby river. The reverse salinity gradient that persists in the system best explains the lack of brachyurans in the northern reaches of the estuarine lake, as even the most euryhaline species would be unable to tolerate the salinity levels currently prevailing in these areas (Carrasco & Perissinotto 2012). H. projectum was once recorded as Hymenosoma orbiculare Desmarest, 1823 until recent genetic studies proposed splitting of the South African H. orbiculare population into five distinct species (Edkins et al. 2007; Teske et al. 2009). These have subsequently been described by Dawson and Griffiths (2012). The species once occurred throughout False Bay and the North Lake (Fig. 2). It is endemic to the east coast of southern Africa, and is known from as far south as Port St Johns (Branch et al. 2010; Teske et al. 2009).

Lawrie and Stretch (2011) proposed three possible scenarios for the future state of the St Lucia estuarine system. In scenario 1, the St Lucia Estuary is separated from the Mfolozi and an open mouth is artificially maintained. Scenario 2 provides for separation from the Mfolozi with no mouth manipulation (closed), while in scenario 3, the St Lucia Estuary and the Mfolozi have a combined inlet with no further manipulation. In the recent past, Scenario 2 has prevailed, although the mouth has now been linked to the Mfolozi (Scenario 3). Scenario 2 is largely associated with high salinity levels and low water levels for prolonged periods, leading to the predominant closure of the mouth. Salinity would be expected to fluctuate between extremely high and extremely low levels. This would negatively affect the diversity and distribution of brachyurans, as large salinity fluctuations and lack of ocean influence in the estuarine lake and surrounding mangroves create conditions that are unfavourable for them. This is problematic when an affected species depends largely on the St Lucia Estuary and is endemic to the region, as is the case with P blephariskios. Additionally, scenario 2 would prevent recruitment of new species and juveniles from the ocean, leading to a temporary loss of species such as S. serrata and those belonging to the genus Uca. However, species capable of surviving these conditions, such as N. africanum and C. eulimene, would dominate in the system and possibly spread due to lack of competition. When the mouth does open briefly, as it did in March 2007, diversity would probably increase, although unsustainably so because of reversion to the closed mouth state soon afterwards. MacKay et al. (2010) reported an increase in the diversity of brachyurans following the overtopping/breaching event of March 2007, which could possibly indicate that larval recruitment had taken place. However, whereas four species were recorded after the storm, only one was found six months later.

In scenario 1, medium to high water levels would persist, although hypersalinity would be experienced about 30 % of the time. This would allow for a much higher diversity and abundance of species, as well as faster recovery after hypersaline events, due to greater stability in salinity. Scenario 3 would have the least extreme conditions, with no anthropogenic intervention subsequent to the linking of the Mfolozi and St Lucia systems. The chances of hypersalinity occurring and desiccation taking place are the lowest in this scenario, while abundance and diversity would be highest (Lawrie & Stretch 2011). Boltt (1974) reported rapid re-colonisation of the system by benthic fauna following a period of high salinity. As there are refuge populations of some species around the Mfolozi River, this could be a future possibility and the presence of U. (T.) urvillei has already been noted near the mouth, in March 2013 (R.H. Taylor pers. obs.) (Table 3). The open mouth in scenarios 1 and 3 would allow for the recruitment of juveniles and possibly new species, although the threat of alien invasion would also increase. A good example of a non-indigenous species is the crab Carcinus maenas (Linnaeus, 1758) which, however, has yet to successfully invade the east coast of South Africa, having been found to prefer sheltered bays as opposed to the high-energy coastline of KwaZulu-Natal (Hampton & Griffiths 2007).

There is no well-defined arrangement for the identification of brachyurans within the system and this is partly due to the recent discoveries of pseudocryptic (identifiable through careful morphological analysis, but easily misidentified) and cryptic (morphologically similar but genetically different) species (Sarno et al. 2005), particularly amongst the sesarmids and within the genera Uca and Hymenosoma (Edkins et al. 2007; Teske et al. 2009, Ragionieri et al. 2012). The aim of the illustrated and annotated checklist in the Appendix is to provide interested parties with an updated and definitive means of identification. This will hopefully reduce identification error and facilitate both research and management.

APPENDIX

An annotated and illustrated checklist of all brachyuran crustaceans identified from St Lucia Estuary during this study and that of Millard and Broekhuysen (1970). Abbreviations: CWW--Carapace width at widest point. Scale bars = 10 mm.

[FIGURE 3 OMITTED]

FAMILY CAMPTANDRIIDAE

Paratylodiplax blephariskios (Stebbing, 1924)

Synonyms: Cleistostoma blephariskios Stebbing, 1924.

Common name: Eastern oval crab.

Size: 10 mm CWW.

Distinguishing features: Carapace almost oval in shape, with highly setose legs and eye stalks.

Distribution: Mngazana to Mocambique.[13] St Lucia records:

1948-Collected in sandy mud at the mouth and the bridge; abundant in the lower Narrows.[7]

2012-Collected at the Mfolozi Back Channel.

Fig. 3. Mfolozi River, October 2012, N.A.F. Miranda, 10 mm.

[FIGURE 4 OMITTED]

FAMILY DOTILLIDAE

Dotilla fenestrata Hilgendorf, 1869

Synonyms: None.

Common name: Army crab.

Size: 10 mm CWW[1]

Distinguishing features: Small and pea-shaped with a grooved carapace.[1]

Distribution: Breede River to Mopambique.[1]

St Lucia records:

1965-Recorded at the Mfolozi inlet.[7]

2012-Recorded at the St Lucia Bridge and the Mfolozi Back Channel.

Fig. 4. Mlalazi Estuary, June 2012, N. Peer, 8 mm.

[FIGURE 5 OMITTED]

FAMILY EPIALTIDAE

Acanthonyx quadridentatus (Krauss, 1843)

Synonyms: Dehaanius quadridentatus Krauss, 1843.

Common name: 4-toothed decorator crab. Maximum size: 20 mm CWW.

Distinguishing features: Bears hooked hairs and three or four pairs of marginal teeth on the carapace; usually covered in algal fragments (decorations), as displayed here.[1]

Distribution: East London to Mopambique.[1]

St Lucia records:

1948-Netted with seaweed fragments from the channel between St Lucia and Mfolozi.[7]

Fig. 5. Rocky Bay, October 2012, N. Peer, 11 mm.

[FIGURE 6 OMITTED]

Acanthonyx scutellatus MacLeay, 1838

Synonyms: Acanthonyx macleaii Krauss, 1843. Common name: Shield decorator crab. Maximum size: 20 mm CWW.

Distinguishing features: Bears hooked hairs on the carapace. Usually covered in algal fragments (decorations).[1]

Distribution: East London to Mopambique.[1]

St Lucia records:

1948-Netted with seaweed fragments from the channel between St Lucia and Mfolozi.[7]

Fig. 6. Treasure Beach, October 2012, N.A.F. Miranda, 12 mm.

[FIGURE 7 OMITTED]

FAMILY GECARCINIDAE

Cardisoma carnifex (Herbst, 1796)

Synonyms: Cancer carnifex Herbst, 1796; Cancer urvillei H. Milne Edwards, 1853; Cardisoma obesum Dana, 1851; Perigrapsus excelsus Heller, 1862.

Common name: Mangrove butcher crab. Maximum size: 10 mm CWW.[1 10]

Distinguishing features: Body dark red to brown, rounded carapace and smooth.[1, 10]

Distribution: Durban Bay to Mopambique.[6, 10]

St Lucia records:

1965-Recorded at the Mfolozi inlet.[7]

2012-Recorded at the St Lucia Bridge and the Mfolozi Back Channel.

Fig. 7. Mlalazi Estuary mangroves, May 2012, N.A.F. Miranda, 95 mm.

[FIGURE 8 OMITTED]

FAMILY GRAPSIDAE

Metopograpsus thukuhar (Owen, 1839)

Synonyms: Grapsus thukuhar Owen, 1839; Metopograpsus eydouxi H. Milne Edwards, 1853; Metopograpsus intermedius H. Milne Edwards, 1853; Pachygrapsus parallelus Randall, 1840. Common name: Estuarine rock crab.

Size: 35 mm CWW[1]

Distinguishing features: External face of palm and dactylus often violet in colour, with carapace and legs mottled.[1]

Distribution: East London to Mopambique.[1, 4]

St Lucia records:

1948-Juveniles were collected on the northern shore of the SAAF station at Shark Basin and on Catalina Bay.[7]

Fig. 8. Durban Bay Harbour, March 2012, N. Peer, 21 mm.

[FIGURE 9 OMITTED]

FAMILY HYMENOSOMATIDAE

Hymenosoma projectum Dawson & Griffiths, 2012

Synonyms: None.

Common name: Eastern crown crab.

Size: 15 mm CWW[1]

Distinguishing features: Lighter in colour compared to other species of this genus and described as the least setose. Length ratio of first leg : second leg = 1.3-1.5:1, a smaller ratio compared to the other species.[3]

Distribution: Port St Johns to Mocambique.[3]

St Lucia records:

1948-Found throughout the system.[7]

2012-Collected at Fani's Island and Catalina Bay.

Fig. 9. Fani's Island, St Lucia, July 2012, N. Peer, 9 mm.

[FIGURE 10 OMITTED]

Neorhynchoplax bovis (Barnard, 1946)

Synonyms: Rhynchoplax bovis Barnard, 1946. Common name: Furry crown crab.

Size: 5 mm CWW.[1]

Distinguishing features: Brown to dark green in colour. Fur-lined chelae are prominent in both sexes.[1]

Distribution: Restricted to tropical and subtropical estuaries along the KwaZulu-Natal coast, to Mocambique.[1]

St Lucia records:

1948-Found throughout the system.[7]

2012-Collected in the Narrows.

Fig. 10. Mpate Mouth, July 2012, R. Perissinotto, 5 mm.

[FIGURE 11 OMITTED]

FAMILY MACROPHTHALMIDAE

Macrophthalmus (Macrophthalmus) grandidieri A. Milne-Edwards, 1867

Synonyms: Macrophthalmus hilgendorfi Tesch, 1915.

Common name: Long-eyed crab.

Size: 25 mm CWW.[1]

Distinguishing features: Carapace wider than long, with two pairs of antero-lateral teeth and two shallow grooves running from the midline to the sides of the carapace.[1]

Distribution: Durban Bay to Mocambique.[1, 2]

St Lucia records:

The species recorded in St Lucia by Millard & Broekhuysen (1970) was M. depressus (1965 Mfolozi inlet), a species currently thought to occur only as far south as Mocambique[1]. Thus, M. grandidieri is reported here instead, as it is possible that misidentification had occurred.

Fig. 11. Durban Bay, May 2012, N. Peer, 19 mm.

[FIGURE 12 OMITTED]

FAMILY MATUTIDAE Ashtoret lunaris (Forskal, 1775)

Synonyms: Cancer lunaris Forskal, 1775; Matuta banksii Leach, 1817; Matuta lunaris (Forskal, 1775).

Common name: Lunar box crab.

Size: 40 mm CWW. (excluding spines).[1] Distinguishing features: Cream, round carapace with red dots and two lateral spines. Spiny chelae.[1] Distribution: East London to Mocambique.[1]

St Lucia records:

1948-Seine-netted at the mouth.[7]

2012-Found dead on the beach berm in front if the closed St Lucia Mouth.

Fig. 12. Vetch's Beach, August 2012, N. Peer, 35 mm.

[FIGURE 13 OMITTED]

FAMILY OCYPODIDAE

Uca (Austruca) annulipes (H. Milne Edwards, 1837)

Synonyms: Gelasimus annulipes H. Milne Edwards, 1837.

Common name: Pink-clawed fiddler crab.

Size: 20 mm CWW.[1]

Distinguishing features: Broad frontal margin, mottled light-coloured carapace and long, light pink chela in males.[11]

Distribution: Port St Johns to Mocambique.[1]

St Lucia records:

1949-Collected from the Mpate River mangroves.[7]

2012-Collected at the Mfolozi Back Channel.

Fig. 13. Mlalazi Estuary, N.A.F Miranda, 13 mm.

[FIGURE 14 OMITTED]

Uca (Paraleptuca) chlorophthalmus (H. Milne Edwards, 1837)

Synonyms: Gelasimus chlorophthalmus H. Milne Edwards, 1837; Uca amazonensis Doflein, 1899. Common name: Green-eyed fiddler crab.

Size: 20 mm CWW.[1]

Distinguishing features: Broad frontal margin. Bright green/blue and black mottled carapace with red legs and chelae.[11]

Distribution: Port St Johns to Mocambique.[1]

St Lucia records:

1948- ollected in Mpate River mangroves.[7]

Fig. 14. Mlalazi Estuary, N.A.F Miranda, 18 mm.

[FIGURE 15 OMITTED]

Uca (Tubuca) urvillei (H. Milne Edwards, 1852)

Synonyms: Gelasimus urvillei H. Milne Edwards, 1852.

Common name: Urville's fiddler crab.

Size: 25 mm CWW.[1]

Distinguishing features: Narrow frontal margin with black/brown mottled legs and carapace, red granulated chelae and cheliped.[11]

Distribution: Port St Johns to Mocambique.[1]

St Lucia records:

1949-Found at Shark Basin.[7]

2013-Observed in the Back Channel for the first time after a long absence from the system.

Fig. 15. Mlalazi Estuary, November 2012, R.H. Taylor, 30 mm.

[FIGURE 16 OMITTED]

Uca (Gelasimus) vocans (Linnaeus, 1758)

Synonyms: Cancer vocans Linnaeus, 1758; Gelasimus cultrimanus White, 1847; Gelasimus marionis Desmarest, 1823; Gelasimus nitidus Dana, 1851; Ocypode cetharoedicus Say, 1817; Uca marionis (Desmarest, 1823); Uca marionis cultrimana (Adams & White, 1848); Uca marionis excisa Nobili, 1906; Uca vocans excisa (Nobili, 1906); Uca (Thalassuca) vocans hesperiae Crane, 1975.

Common name: Brown fiddler crab.

Size: 25 mm CWW.[1]

Distinguishing features: Narrow frontal margin with black/brown mottled legs and carapace, red granulated chelae and cheliped.[11]

Distribution: Port St Johns to Mocambique.[1]

St Lucia records:

1948-Collected in Mpate River mangroves.[7]

Fig. 16. Mlalazi Estuary, August 2012, R. Perissinotto, 19 mm.

[FIGURE 17 OMITTED]

Ocypode ceratophthalmus (Pallas, 1772)

Synonyms: Cancer caninus Herbst, 1782;

Cancer ceratophthalmus Pallas, 1772; Ocypoda macleayana Hess, 1865; Ocypode brevicornis var. longicornuta Dana, 1852; Ocypode urvillei Guerin, 1829.

Common name: Horn-eyed ghost crab.

Size: 40 mm CWW.[1]

Distinguishing features: Has horned eyestalks and a green-coloured carapace. One chela usually noticeably larger than the other.[1]

Distribution: Knysna to Mocambique.[1]

St Lucia records:

1948-Found on the beach near the Mfolozi inlet.[7]

2012-Found on the berm at the St Lucia Estuary mouth.

Fig. 17. St Lucia Beach, November 2011, N. Peer, 32 mm.

[FIGURE 18 OMITTED]

Ocypode madagascariensis Crosnier, 1965

Synonyms: Ocypode madagascarensis Crosnier, 1965. Common name: Madagascan ghost crab.

Size: 35 mm CWW.[1]

Distinguishing features: Sandy in colour. Similar in appearance to O. ryderi but unlike this species, O. madagascariensis has orange/brown joints.[1] Distribution: Durban to Moqambique.[1]

St Lucia records:

2012-Found on the berm at the St Lucia Estuary mouth.

Fig. 18. St Lucia Beach, July 2012, R. Perissinotto, 28 mm.

[FIGURE 19 OMITTED]

Ocypode ryderi Kingsley, 1880

Synonyms: None.

Common name: Pink ghost crab.

Size: 35 mm CWW.[1]

Distinguishing features: Dull pink in colour and similar in appearance to O. madagascariensis. Unlike this species, O. ryderi has mauve joints.[1] Distribution: Port Elizabeth to Moqambique.[1]

St Lucia records:

2012-Found on the berm at the St Lucia Estuary mouth.

Fig. 19. St Lucia Beach, December 2011, N. Peer, 30 mm.

[FIGURE 20 OMITTED]

FAMILY PORTUNIDAE

Scylla serrata (Forskal, 1775)

Synonyms: Achelous crassimanus MacLeay, 1838; Cancer serrata Forskal, 1775; Lupa lobifrons H. Milne Edwards, 1834; Scylla tranquebarica var. oceanica Dana, 1852.

Common names: Giant mud crab, Serrated swimming crab.

Size: 300 mm CWW[1]

Distinguishing features: Carapace bears nine pairs of marginal teeth on an oval-shaped carapace. Usually green/brown in colour with orange-tipped chelae and walking legs.[1]

Distribution: Indo-Pacific; in southern Africa, occurs between Knysna to Moqambique.[1]

St Lucia records:

1948-Found at the St Lucia Estuary mouth and near islands. located in the Narrows.[7]

2011-Observed at Charter's Creek.

2012-Found dead at the St Lucia Mouth.

Fig. 20. Mfolozi River, March 2012, N. Peer, 121 mm.

[FIGURE 21 OMITTED]

Portunus (Portunus) pelagicus (Linnaeus, 1758)

Synonyms: Cancer pelagicus Linnaeus, 1758; Cancer cedonulli Herbst, 1794; Lupapelagica (Linnaeus, 1758); Portunus denticulatus Marion de Proce, 1822; Portunus (Portunus) pelagicus var. sinensis Shen, 1932.

Common name: Blue swimming crab.

Size: 120 mm CWW.[1

Distinguishing features: Carapace is mottled brown and pink with a toothed, fur-lined anterolateral margin. A lateral spine is present on each side of the carapace and chelae and walking legs are usually blue.[1]

Distribution: Durban to Mocambique.[1]

St Lucia records:

1964-Seine-netted between Catalina Bay and Brodie's Shallows, below the Mpate River mouth and at the St Lucia Bridge.[7]

Fig. 21. Durban Bay Harbour, September 2012, Durban Seine-Netters, 90 mm.

[FIGURE 22 OMITTED]

FAMILY POTAMONAUTIDAE Potamonautes cf. lividus (Gouws, Stewart & Reavell, 2001)

Synonyms: None.

Common name: St Lucia river crab.

Size: 15 mm CWW.

Distinguishing features: This could be an undescribed species (molecular and morphological study currently in progress). Very similar in appearance to P lividus except for the larger size and colouration.

Distribution: Currently known only from ephemeral pans around False Bay, Lake St Lucia.

St Lucia records:

2012-Netted from ephemeral pans adjacent to False Bay.

Fig. 22. Dukandlovu Pan, south of Lister's Point, July 2012, R. Perissinotto, 14 mm.

[FIGURE 23 OMITTED]

Potamonautes sidneyi (Rathbun, 1904)

Synonyms: Potamon sidneyi Rathbun, 1904. Common names: Natal river crab, Sidney's river crab.

Size: 50 mm CWW.[12]

Distinguishing features: Carapace strongly granulated, forming sharp angle between postfrontal crest and epibranchial region. Usually brown in colour.[12]

Distribution: Mozambique, South Africa (Eastern Cape Province, Free State, Gauteng, KwaZuluNatal, Mpumalanga, Northern Cape Province, North-West Province) and Swaziland.[12]

St Lucia records:

1949-Collected on the bank opposite the Catalina Jetty.[7]

2012-Found at a freshwater stream north of Lister's Point.

Fig. 23. Cobham, Drakensberg, February 2012, R. Perissinotto, 48 mm.

[FIGURE 24 OMITTED]

FAMILY SESARMIDAE

Neosarmatium smithi (H. Milne Edwards, 1853)

Synonyms: Sesarma smithi H. Milne-Edwards, 1853; Sesarma smithii H. Milne-Edwards 1853. Common name: Marsh crab.

Size: 50 mm CWW.[5]

Distinguishing features: Has uniformly bright red chelae and a black carapace. Very similar in appearance to P guttatum but unlike P. guttatum this species bears at least two spines on the upper margin of its dactylus.[4]

Distribution: Mngazana to Moqambique.[2- 4]

St Lucia records:

2012-Found amongst the mangroves around the St Lucia Mouth, the Narrows and the Mfolozi inlet.

Fig. 24. St Lucia Estuary mouth, February 2012, R. Perissinotto, 50 mm.

[FIGURE 25 OMITTED]

Neosarmatium africanum Ragionieri, Fratini & Schubart, 2012

Synonyms: Previously regarded as Neosarmatium meinerti (De Man, 1887).

Common name: Red mangrove crab.

Size: 50 mm CWW.[1]

Distinguishing features: Square-like carapace with red and yellow/orange granulated chelae. Chest strongly granulated and ridged upper margin of chelae.[1 2]

Distribution: Port Elizabeth to Moqambique.[1]

St Lucia records:

1948-Collected from Charter's Creek and mangroves around the Narrows and the St Lucia Mouth.[7]

2012-Found amongst the mangroves at the mouth, the Narrows and the Mfolozi inlet.

Fig. 25. St Lucia Estuary mouth, March 2012, N.A.F Miranda, 48 mm.

[FIGURE 26 OMITTED]

Parasesarma catenatum (Ortmann, 1897)

Synonyms: Sesarma catenata Ortmann, 1897. Common name: Furry marsh crab.

Size: 25 mm CWW.[1]

Distinguishing features: Chelae are orange/yellow in colour, similar to S. eulimene. P catenatum is distinguished by the fur-lined chelae present in males and the oblique-shaped ridge on the upper margin of the dactylus.[1- 11]

Distribution: Cape Agulhas to Moqambique.[1]

St Lucia records:

1948-Collected from mangroves in the lower Narrows and St Lucia Mouth region.[7]

2012-Found at the Mfolozi inlet.

Fig. 26. Mfolozi River, March 2012, N. Peer, 13 mm.

[FIGURE 27 OMITTED]

Chiromantes eulimene (De Man in Weber, 1897)

Synonyms: Sesarma eulimene De Man, 1895; Holometopus eulimene (De Man, 1898).

Common name: Common marsh crab.

Size: 25 mm CWW.[1]

Distinguishing features: Chelae are similar in colour as those of P catenatum but without the fur-lined chelae in males and with more rounded granulation of the dactyl's upper margin)1, 11] Distribution: Bashee to Mopambiqued1 St Lucia records:

1949-Found north of the Mfolozi inlet, on the islands near Charter's Creek, at the Mpate River mouth, near the pond at the mouth and at Honeymoon Bend Picnic Site.[7]

2012-Found at the St Lucia Bridge, Honeymoon Bend, near the Mfolozi inlet and in Shark Basin.

Fig. 27. Honeymoon Bend, St Lucia, March 2012, N. Peer, 18 mm.

[FIGURE 28 OMITTED]

Perisesarma guttatum (A. Milne-Edwards, 1869)

Synonyms: Sesarma guttata A. Milne-Edwards, 1869.

Common name: Red-clawed marsh crab.

Size: 50 mm CWW[1]

Distinguishing features: Carapace is black and chelae are uniformly red, similar to N. smithi. Distinguished from N. smithi by the granulation on the upper margin of the chelae.[ 1 4]

Distribution: Port St Johns to Mopambique.w St Lucia records:

1964-Found at the St Lucia Bridge.[7]

2012-Collected at the St Lucia Mouth and Bridge.

Fig. 28. Mlalazi Estuary, May 2012, N. Peer, 26 mm.

[FIGURE 29 OMITTED]

FAMILY VARUNIDAE

Cyclograpsuspunctatus (H. Milne Edwards, 1837)

Synonyms: Cyclograpsus reynaudi H. Milne Edwards, 1837; Gnathochasmus barbatus MacLeay, 1838.

Common name: Brown shore crab.

Size: 30 mm CWW[1]

Distinguishing features: Smooth carapace, which is almost square in appearance. Usually dark brown to dark green in colour, with orange/brown legs.[1] Distribution: Entire South African coastline.[1]

St Lucia records:

1948-Collected from Shark Basin and islands located within the Narrows.[7]

Fig. 29. Mission Rocks, October 2012. N. Peer, 14 mm.

[FIGURE 30 OMITTED]

Ptychognathus onyx Alcock, 1900

Synonyms: None.

Common name: Hairy swimming crab.

Size: 14 mm CWW[14]

Distinguishing features: Similar in appearance to Varuna litterata but differs because of the presence of fur-lined outer palms of chelae and toothed margins of carapace.[14]

Distribution: In Africa, this species has only been recorded in St Lucia[7] and in Tanzania.[15]

St Lucia records:

1949-Rarely found in mud banks of estuary. As the species is very similar to V. litterata, this record may represent an erroneous identification.[7]

Fig. 30. St Lucia, Estuary mouth, July 1949,

[FIGURE 31 OMITTED]

K.H. Barnard, 10 mm. [Note--These photographs depict the 1949 specimen from the collection at the Iziko South African Museum. Photographs were highly manipulated due to the poor condition and colouration of the actual specimen.]

Varuna litterata (Fabricius, 1798)

Synonyms: Alpheus litteratus Weber, 1795; Cancer litterata Fabricius, 1798; Varuna tomentosa Pfeffer, 1889.

Common name: River swimming crab.

Size: 70 mm.[12]

Distinguishing features: Carapace almost square in appearance. Dorso-ventrally flattened and mottled brown/green. Highly setose walking legs.[12] Distribution: Indo-Pacific; in southern Africa, reaching as far south as Port St Johns.[11]

St Lucia records:

1948-Recorded at a freshwater stream near Charter's Creek and at False Bay.[7]

2012-Found at the mouth (alive) and at False Bay (dead).

Fig. 31. St. Lucia Estuary mouth, February 2012, R. Perissinotto, 45 mm.

ACKNOWLEDGEMENTS

The staff and management at iSimangaliso Wetlands Park Authority and EKZN Wildlife are thanked for their support and co-operation. Thanks are also due to Gavin Gouws of SAIAB (Grahamstown, South Africa), Daniele Guinot of the National Museum of Natural History (Paris, France), Peter Davies of the Queensland Museum (Queensland, Australia) and Liz Hoensen of the Iziko South African Museum (Cape Town, South Africa) for their time and invaluable input. Regarding collection and fieldwork in general, N.K. Carrasco, D.C. Dyer, H.A. Nel, J. Raw, M.S. Ngubane, S. Mfeka, R. Jackson and the Durban Seine-Netters are all gratefully acknowledged. Funding for this study was provided by the National Research Foundation (NRF, Pretoria), the South Africa - Netherlands research Programme on Alternatives in Development (SANPAD, Durban) and the University of KwaZulu-Natal (UKZN, Durban).

REFERENCES

Note: The number in square brackets at the end of some of the references refers to the in-text citation used in the annotated checklist (Appendix).

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Boltt, R.E. 1974. The benthos of some southern African lakes. Part V: The recovery of the benthic fauna of St Lucia following a period of excessively high salinity. Transactions of the Royal Society of South Africa 41: 295-323.

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N. Peer (1) *, R. Perissinotto (1, 2), R. H. Taylor (2, 3) and N. A. F. Miranda (1)

(1) DST/NRF Research Chair in Shallow Water Ecosystems, c/o Department of Zoology, Nelson Mandela Metropolitan University, P. O. Box 77000, Port Elizabeth, 6031 South Africa

(2) School of Life Sciences, University of KwaZulu-Natal, Westville Campus, P. Bag X54001, Durban, 4000 South Africa

(3) Ezemvelo KZN Wildlife, P. Bag X01, St Lucia Estuary, 3936 South Africa

* Corresponding author: peer.nasreen@gmail.com
TABLE 1

Brachyuran species (with previously used names and describing author)
collected from St Lucia since 1948. *--As recorded by Millard &
Broekhuysen (1970).

Accepted name                  Author

Acanthonyx quadridentatus      (Krauss, 1843)
Acanthonyx scuteUatus          McLeay, 1838
Ashtoret hinaris               (Forskal, 1775)
Cardisoma camifex              (Herbst, 1796)
Chimmantes eulimene            de Man in Weber, 1897
Cyclograpsus pimctatus         H. Milne Edwards, 1837
Dotilla fenestrata             Hilgendorf, 1869
Hymenosoma projectum           Dawson & Griffiths, 2012
Macrophthalmus depresses       Riippell, 1830
Metopograpsus thukuhar         (Owen, 1839)
Neorhynchoplax bovis           (Barnard, 1946)
Neosarmatium inerme            (De Man, 1887)
Neosarmatium qfricanum         Ragionieri, Fratini &
                                 Schubart, 2012
Neosarmatium smithi            (H. Milne Edwards, 1853)
Ocypode ceratophthalmus        (Pallas, 1772)
Ocypode madagascariensis       Crosnier, 1965
Ocypode tyderi                 Kingsley, 1880
Parasesamia catenation         (Ortmann, 1897)
Paratylodtplax blephariskios   (Stebbing, 1924)
Pertsesarma guttatum           (A. Milne-Edwards, 1869)
Portmms pelagicus              (Linnaeus, 1758)
Potamonautes sidneyi           (Rathbun, 1904)
Potamonautes cf. sidneyi       --
Ptychognathus onyx             Alcock, 1900
Scylla serrata                 (Forskal, 1775)
Uca ammlipes                   (H. Milne Edwards, 1837)
Uca chlorophthalmus            (H. Milne Edwards, 1837)
Uca urvillei                   (H. Milne Edwards, 1852)
Uca vocans                     (Linnaeus, 1758)
Vanina litterata               (Fabricius, 1798)

Accepted name                  Previous name *

Acanthonyx quadridentatus      Dehaanius quadridentatus
Acanthonyx scuteUatus          Dehaanius scuttelatus
Ashtoret hinaris               Matuta hinaris
Cardisoma camifex              Sesarma eulimene
Chimmantes eulimene
Cyclograpsus pimctatus
Dotilla fenestrata
Hymenosoma projectum           Hymenosoma orbiculare
Macrophthalmus depresses
Metopograpsus thukuhar
Neorhynchoplax bovis           Rhynchoplax bovis
Neosarmatium inerme            Sarmatium inerme
Neosarmatium qfricanum         Sesarma meinerti
Neosarmatium smithi            Sesarma smithii
Ocypode ceratophthalmus
Ocypode madagascariensis
Ocypode tyderi
Parasesamia catenation         Sesamia catenata
Paratylodtplax blephariskios   Tylodiplax blephariskios
Pertsesarma guttatum           Sesamia guttata
Portmms pelagicus              Lupa pelagica
Potamonautes sidneyi
Potamonautes cf. sidneyi
Ptychognathus onyx
Scylla serrata
Uca ammlipes
Uca chlorophthalmus
Uca urvillei
Uca vocans                     Uca marionis
Vanina litterata

Accepted name                          Years collected in St Lucia

                               1948/49   1964/65   2007   2011   2012

Acanthonyx quadridentatus         X
Acanthonyx scuteUatus             X
Ashtoret hinaris                  X                               X
Cardisoma camifex                           X                     X
Chimmantes eulimene               X                               X
Cyclograpsus pimctatus            X
Dotilla fenestrata                X                               X
Hymenosoma projectum              X         X                     X
Macrophthalmus depresses                    X
Metopograpsus thukuhar            X
Neorhynchoplax bovis              X         X                     X
Neosarmatium inerme               X
Neosarmatium qfricanum            X                 X             X
Neosarmatium smithi                                               X
Ocypode ceratophthalmus           X                 X             X
Ocypode madagascariensis                                          X
Ocypode tyderi                                             X      X
Parasesamia catenation            X                               X
Paratylodtplax blephariskios      X         X       X             X
Pertsesarma guttatum                        X                     X
Portmms pelagicus                           X       X
Potamonautes sidneyi              X
Potamonautes cf. sidneyi                                          X
Ptychognathus onyx                X
Scylla serrata                    X                               X
Uca ammlipes                      X                               X
Uca chlorophthalmus               X
Uca urvillei                                X
Uca vocans                                  X
Vanina litterata                  X                        X      X

TABLE 2

Density codes indicating the maximum density of brachyuran species at
each sampling period in St Lucia Estuary. A = abundant (1001--10000
[m.sup.--2]), C = common (101--1000 [m.sup.--2]), R = rare (11--100
[m.sup.--2]) and V = very rare (1--10 [m.sup.--2]). Figures in brackets
denote average abundance over the entire estuary ([m.sup.--2]), except
for P. blephariskios, found at the Back Channel in 2012.

                                  Paratylodiplax blephariskios

Date (and reference)           Abundance        Location

1983                               A            Narrows
(Owen & Forbes 1997)

1984                               C            Narrows
(Owen & Forbes 1997)

1987                               A            Narrows
(Owen & Forbes 1997)

1988                               C            Narrows
(Owen & Forbes 1997)

1989                               A            Narrows
(Owen & Forbes 1997)

1990                               C            Narrows
(Owen & Forbes 1997)

1993                               C            Narrows
(Owen & Forbes 1997)

1994                               c            Narrows
(Owen & Forbes 1997)

2005                           R (20.4)     Mouth, Narrows
(Pillay & Perissinotto 2008)                 and South Lake

2012                           R (88.8)       Back Channel

                                Hymenosoma cf. orbiculare

Date (and reference)           Abundance     Location

1983                              --            --
(Owen & Forbes 1997)

1984                               R          Narrows
(Owen & Forbes 1997)

1987                               V          Narrows
(Owen & Forbes 1997)

1988                               V          Narrows
(Owen & Forbes 1997)

1989                               R          Narrows
(Owen & Forbes 1997)

1990                              --            --
(Owen & Forbes 1997)

1993                              --            --
(Owen & Forbes 1997)

1994                              --            --
(Owen & Forbes 1997)

2005                              --            --
(Pillay & Perissinotto 2008)

2012                            V(5.0)     Fani's Island

                                      Neosarmatium africanum

Date (and reference)                  Abundance          Location

1983                                     --                 --
(Owen & Forbes 1997)

1984                                     --                 --
(Owen & Forbes 1997)

1987                                     --                 --
(Owen & Forbes 1997)

1988                                     --                 --
(Owen & Forbes 1997)

1989                                     --                 --
(Owen & Forbes 1997)

1990                                     --                 --
(Owen & Forbes 1997)

1993                           V (3.7 [+ or -]0.7 SD)    Mouth and
(Owen & Forbes 1997)                                      Narrows

1994                                     --                 --
(Owen & Forbes 1997)

2005                                     --                 --
(Pillay & Perissinotto 2008)

2012                           V (5.7 [+ or -] 1.1 SD)   Mouth and
                                                          Narrows

TABLE 3

Distribution of brachyuran species sampled from 1948 to 2012, where:
BM-boardwalk mangroves, BP-black pipe, BR-bridge, CB-Catalina Bay,
CC-Charter's Creek, EM-estuary mouth, FB-False Bay, FI-Fani's Island,
FIB -Honeymoon Bend, MI-Mfolozi inlet, MR-Mpate River mouth, MT-
Makakatana, NA-Narrows and NF-North Fake.

Identification                 EM     BM     BP     MI     HB     BR

Acanthomx quadridentatus                            1948
Acanthomx scuteUatus                                1948
Ashtoret lunaris               1948
Cardisoma camifex              2012                 1965          2012

Chimmantes eulimene            2012   1949   2012   2012   2012   2012
                                      2012

Cyclograpsus punctatus                1948
Dotilla fenestrata             1948
                               2012

Hymenosoma projectum           1948

Macrophthalmus depressus                            1965
Metopograpsus thukuhar                1948
Neorhynchoplax bovis           1949                               2012
Neosamiatium inerme                   1948
Neosamiatium meinertt          1948   2012          2012          2012
                               2012

Ocypode ceratophthalmus        1948
                               2012

Ocypode madagascariensis       2012
Ocypode ryderi                 2012
Parasesamia catenation                1949          1949
                                                    2012

Paratylodiplax blephariskios   1948                 2012          1964

Perisesarma guttatuni          2012                               1964
                                                                  2012

Portwms pelagicus                                                 1964
Potamonautes cf. lividus
Potamonautes sidneyi
Ptychognathus onyx             1949
Scylla serrata                 2012                 2012
Uca mmulipes                                        2012
Uca chlorophthalmus
Uca un'illei                   2013   1948
Uca vocans                                          1965

Varuna litterata               2012                 1949

Identification                 MR     NA     MT     CB     CC     FI

Acanthomx quadridentatus
Acanthomx scuteUatus
Ashtoret lunaris
Cardisoma camifex

Chimmantes eulimene            1949   1949                 1949

Cyclograpsus punctatus                1948
Dotilla fenestrata

Hymenosoma projectum                                2012   1948   1948
                                                           2012   2012
Macrophthalmus depressus       2012   2012
Metopograpsus thukuhar                              1948   1948
Neorhynchoplax bovis                                              1948
Neosamiatium inerme
Neosamiatium meinertt          2012   1948                 1948

Ocypode ceratophthalmus

Ocypode madagascariensis
Ocypode ryderi
Parasesamia catenation

Paratylodiplax blephariskios

Perisesarma guttatuni

Portwms pelagicus              1964   1964          1964
Potamonautes cf. lividus
Potamonautes sidneyi                                1948
Ptychognathus onyx
Scylla serrata                                             1948
Uca mmulipes                   1949
Uca chlorophthalmus            1949
Uca un'illei
Uca vocans

Varuna litterata                                           1948

Identification                 FB     NL

Acanthomx quadridentatus
Acanthomx scuteUatus
Ashtoret lunaris
Cardisoma camifex

Chimmantes eulimene

Cyclograpsus punctatus
Dotilla fenestrata

Hymenosoma projectum           1948   1948

Macrophthalmus depressus
Metopograpsus thukuhar
Neorhynchoplax bovis                  1948
Neosamiatium inerme
Neosamiatium meinertt

Ocypode ceratophthalmus

Ocypode madagascariensis
Ocypode ryderi
Parasesamia catenation

Paratylodiplax blephariskios

Perisesarma guttatuni

Portwms pelagicus
Potamonautes cf. lividus       2012
Potamonautes sidneyi
Ptychognathus onyx
Scylla serrata
Uca mmulipes
Uca chlorophthalmus
Uca un'illei
Uca vocans
                               1948
Varuna litterata               2012
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Author:Peer, N.; Perissinotto, R.; Taylor, R.H.; Miranda, N.A.F.
Publication:African Invertebrates
Article Type:Report
Geographic Code:6SOUT
Date:Jun 1, 2014
Words:9781
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