A fiddler crab is a semi-terrestrial, tiny, and fast-moving species that lives in fine marshy mud during the diurnal low tides. Burrows are important in the lives of fiddler crabs because they shield the crabs from being swept away by high tides and help the crabs keep their gills moist on low tide-hot days. The burrow is sometimes used for breeding and to shield the fiddler crab from predators. They are commonly found along the eastern United States’ intertidal marshy shoreline. Fiddler crabs are members of the family Una spp. The fiddler crabs are usually found in huge numbers living in small adjacent territories. The male fiddler usually has one big claw which is used for fighting other males while the females have two small claws. The fiddler crabs have been known to feed on dead organic matter (they are detritovores). Therefore they reduce the organic content along the shoreline and aerate the sediment at the shoreline. The crabs start burrowing at a very early age. Burrowing is usually influenced by various factors such as the ground temperature, tidal periodicity, root material density, mate display activities, stem density and threat posed by the predator ((Quareshi and Saher). In most cases the crabs have been known to choose specific places along the marshy shoreline to make their burrows. These specific habitats have the specific conditions that are favourable to the survival of the fiddler crabs.
Objective
The main aim of this lab was to use a transect to determine the size and the population of the fiddler crab at the Alimacani Boat Ramp. The collected information will be crucial in identifying the specific abiotic factors that influence the size and local distribution of the fiddler crabs.
Materials
100m transect tape
Quadrat square large
Small rulers
Penetrometers
PH pen
Field Procedure
Site
The class conducted the fiddler field survey at the Jacksonville Timucuan Trail Waterway. The class was divided into three class groups before the experiment began. The students were to collect qualitative data on the fiddler crabs such as the PH, temperature and compaction of the sediment. Quantitative data such as the size of the burrows was also to be collected.
Procedure
The initial step of the experiment was to use the 100m transect tape to measure 100m and then divide the 100m into three separate sections; 0m, 50m and 100m. Then quadrat squares large was used for testing in the separate sections. Ten holes in each section were selected and small rulers were used to assess the length of each hole.
The final step included the collection of qualitative data on PH, temperature and sediment compaction by the use of the PH pen and Penetrometer.
Results
During the day of field survey, 9th February 2017, the air temperature was 620F, the water temperature was 650F, and the cloud cover was 50% while the average wind speed was 10mph southeast.
Qualitative data on the holes form the three sections is as follows;
Table 1 showing the data collected on the holes from the three sections from the different quadrats.
Area 1
Area 2
Area 3
Quad1
Quad2
Quad3
Quad1
Quad2
Quad3
Quad1
Quad2
Quad3
0M
50M
100M
0M
50M
100M
0M
50M
100M
0.5
0.5
1
1
1
0.5
1.5
1.5
0.75
1
1
0.5
1
1
0.7
1
0.5
1
1.25
1
2
1.5
0.5
0.3
0.5
1
0.5
1
0.5
1
1.5
0.5
1.5
1
0.5
1
1.25
0.5
0.25
0.8
0.7
1.5
0.5
1
1
1
0.25
2
1
1
1.7
0.5
1
1.5
0.75
0.5
2
1.4
0.5
1
1
0.3
0.7
0.5
0.5
0.25
1
0.5
1.7
2
0.5
0.3
0.5
1
1
0.4
1
1
1.5
0.5
0.5
0.25
1
0.5
1
1.5
0.5
6
0.5
1
Average
0.8
0.675
1.05
0.96
0.95
1.04
0.9
0.73
0.8
pH
6.6
6.91
6.87
7.1
6.95
6.96
6.95
7.42
6.87
Temp
24.9
65.5
69.1
75.2
71.2
71.2
24.4
22.2
22.4
Compaction
150
100
100
40
58
42
45
32
30
Holes
85
25
20
460
400
1140
260
540
960
Discussion and Analysis
Graph the mean of the number of fiddler crabs` burrow for each quadrat.
Graph 1 showing the average holes per section for each and every quadrat
From the above graph, it is evident that the size and distribution of the fiddler crabs changes in each transect in Alimacani Boat Ramp. The transect near the marsh creek has a large population size of the fiddler crab while the quadrat farthest from the marsh creek has a low population size of the fiddler crab. This is because the crabs require certain conditions for survival such as specific pH and moisture content, which are only provided by specific intertidal zones of Alimacani Boat Ramp. This means that most of the fiddler crabs population is found in places along the shoreline that are favourable to the crabs. The data collected helps in coming up with the hypothesis that the abiotic factors influence the distribution and size of the fiddler crabs. However more sampling is required so as to confirm the hypothesis.
Graph 2 showing the number of fiddler crab against the sediment pH
Graph 3 showing the number of fiddler crabs burrow against the sediment compaction
Graph 4 showing the comparison between sediment temperature and number of fiddler crab burrows.
The above graphs demonstrate that there is a relationship between the sediment characteristics such as the pH, compaction and temperature and the local distribution and size of the fiddler crab. Factors such as pH are always crucial to the survival of all animals. Most of the animals will be favoured by a pH of 7(Neutral) or close to 7. This is because their biological processes inside their bodies will not be affected since a state of hoemoeosis in the fiddler crab. High or low pH would result into the disruption of the normal biological processes in the crab resulting into the death of the fiddler crab.
High temperature will resulted into the dehydration of the fiddler crabs while low temperature will lead to slow metabolism in the fiddler crab. Both situations would result into the death of the crabs.
Graph 5 showing the average size of burrow per section in quadrat 1
Graph 6 showing the average size of burrow per section in quadrat 2
Graph 7 showing the average size of the burrows per section in quadrat 3
The above graphs show that the fiddler crab number changes along the Alimacani Boat Ramp. This is because of the change in abiotic factors such as temperature and pH. The results could be used in coming up with a hypothesis, however more sampling has to be done so as to confirm the hypothesis.
Graph 8 showing the comparison between the pH of the sediment and the average size of the burrows in the transects
Graph 9 showing the comparison between the temperature of the sea water and the average size of the burrows in quadrat 2
Graph 10 showing the comparison between the temperature of the sea water and the average size of the burrows in quadrat 3
It is evident from the above graphs that the size of the burrows changes as the sediment characteristics such as pH, compaction and temperature changes. The size of the burrow is large in sediment areas with optimum temperatures of 35 degrees celsius. This means that at 35 degree Celsius the fiddler crabs are at their maximum activity level. The size of the burrow reduces as the temperature of the sediments reduces.
From the above results, one could conclude that the environmental factors along Alimacani Boat Ramp influence the population distribution of the fiddler crabs and the size of the burrows of the crabs. Environmental factors such as pH, temperature and sediment compaction clearly affect the survival of fiddler crab. However there are additional factors such as stem density, salinity of the water and sediment at the Alimacani Boat Ramp and the threat posed by the predators affect the crabs.
Part 2:
The fiddler crabs are of importance in the ecosystem at the marshy shorelines of the United States. The crabs usually make burrows which affect the nature of the sediment at the shoreline. The faecal pellets of the crabs have been known to favour the growth of the cord grass (Spartina alterniflora).
During the field survey at the Alimacani Boat Ramp we encountered the following three species of the fiddler crabs; uca minar, uca pugilator, uca pugnax. However the fiddler crabs are referred by the local people in different common names; uca pugnax is referred to as sand fiddler crab, uca gugilator is referred to as marshy fiddler crab while uca minar is referred to as mud fiddler crab.
The taxonomy of the fiddler crab is as follows; Kingdom (Animalia), Phylum (Arthropoda), Class (Malacostra), Order (Decapoda), Family (Ocypodidae), Genus (Uca), and the species are Uca pugilator, Uca minar and Uca pugnax.
The fiddles crabs acquire their name from the waving movement made by the male crabs with their enlarged claws during courtship. The motion resembles a musician playing the fiddle or the violin. Each species of the fiddle crab has been known to have distinctive waving motion. All fiddle crabs are square in shape.
Ghost crabs are closely related to the fiddle crab. Both the ghost crab and the fiddler crab are found in the Ocypodidae family. Roughly 22 species of the ghost crab are found worldwide. The taxonomy of the ghost crab is; Kingdom (Animalia), Phylum (Arthropoda), Sub phylum (Crustacea), Class (Malacostraca), Order (Decapoda), Intraorder (Brachyura), Family (Ocypodidae) and Sub family (Ocypodinae). The 22 ghost crab species are usually found in two genera; Ocypode and Hoplocypode.
3.
Uca minar
Uca pugilator
Uca pugnax
Enlarged claws red-jointed for males
Enlarged claws for males
Enlarged claws for males
Detritovores
Detritovores
Detritovores
Square carapace
Square carapace
Blue patch carapace
Hard claws
The inside part of claws is soft
Have chelipeds (claws with legs)
Have eight legs
Have ten legs
Legs (pereiopods) have dark bands.
Habits muddy and sandy shores
Habit estuarine and shorelines
Habits shorelines
The determination of sex of the crabs can range from been quite easy to been troublesome. The larger the crab species the easier it is to identify the crab gender. A general method of trying to identify the gender of the crabs is by viewing the underside of the crab. If the crab has a triangular shape on the rear end then it is male, but if it has a broad round marking at the rear end then it is female. However the identification of gender in some species is different from the rest, for example the blue crabs` gender can be identifies b checking the colour of the claw, if the claw is blue then the crab is male, but if the crab has a red-tipped claw then it is female. As for the fiddle crab, the male has an enlarged claw while the female has two small claws.
The crabs usually undergo moulting. This process is crucial since it helps the crabs to regain its lost body parts such as the claw. After the loss of its major cheliped, the small claw of the fiddle crab grows into a large claw will the lost claw grows back into a small claw.
The crabs are of important to the marshy ecosystem since their activities are beneficial to other members in the ecosystem. Birds such as the seagull predate on the crabs therefore the crabs act as a source of food. The faecal matter of the crabs enriches the muddy soil in the marshy area hence favouring the growth of vegetation such as the faecal matter of fiddle crab favours the growth of the cord grass. The crabs, most especially the fiddle crab aerate the sediments of the shoreline by making burrows.
Work Cited
Quareshi, Naureen Aziz and Noor Us Saher. “Burrow Morphology of Three Species Of Fiddler Crab (Uca) Along The Coast Of Pakistan”. www.vliz.be/imisdocs/publications. N.p., 2012. Web. 1 Mar. 2017.