DISTRIBUTION AND HABITAT SUITABILITY MODELING OF COENAGRIONIDAE KIRBY, 1890 (ODONATA: ZYGOPTERA) IN MOUNT CIREMAI NATIONAL PARK
Coenagrionidae is the most speciose family of damselflies (Zygoptera), representing about 73% of superfamily Coenagrionidea worldwide. Members of this family are commonly found in various freshwater environments. Its small size and weak flying capability make Coenagrionidae highly vulnerable to e...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/87238 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Coenagrionidae is the most speciose family of damselflies (Zygoptera), representing
about 73% of superfamily Coenagrionidea worldwide. Members of this family are
commonly found in various freshwater environments. Its small size and weak flying
capability make Coenagrionidae highly vulnerable to environmental changes. Mount
Ciremai National Park (TNGC) has many water sources, making it a potential habitat
for Coenagrionidae dragonflies. This research aims to study the distribution of
Coenagrionidae and its habitat characteristics, as well as to identify environmental
variables that affect the suitability of Coenagrionidae habitat in TNGC. The research
was conducted during 2024, with field data collections were conducted from January
to April 2024 in twelve purposively determined locations within TNGC. Data collected
in the field included dragonfly encounter coordinates and habitat conditions in the form
of microclimates (such as air temperature, air humidity, light intensity) and water
physicochemical properties (such as depth, current, water temperature, and pH). We
also used secondary data in the form of environmental variables, such as: land cover,
distance from settlements, distance from water sources, Normalized Difference
Vegetation Index (NDVI), Normalized Difference Water Index (NDWI), altitude, and
slope. Individual presence data were analyzed statistically and spatially, habita
characteristics were analyzed with descriptive statistics, and habitat suitability was
analyzed with Species Distribution Modeling (SDM) using the Maximum Entropy
(MaxEnt) algorithm. The results showed 37 Coenagrionidae encounter points, covering
seven identified species from 201 individuals. Although it is most abundant in open
lentic waters, Coenagrionidae in TNGC is generally distributed in clusters (with
clumped patterns) around three types of freshwater habitats: (1) springs (shallow, slow
currents, and shaded by vegetation); (2) rivers (shallow, with moderate currents, not
shaded); and (3) lentic water body (shallow and not shaded). All three habitats shared
similar characteristics with elevation <1300 m.asl, shady to very bright light intensity,
high relative humidity, relatively warm air temperature, and water temperature, and
water pH tends to be neutral. The Species Distribution Modeling produces an Area
Under Curve (AUC) value of 0.980, indicating the model is accurate. Based on the
modeling, we found that 91.54 ha or about 0.66% of the area of TNGC is potential as
Coenagrionidae habitats, which are heavily influenced by the three most contributing
variables in the modeling, which are: (1) distance from water sources; (2) distance from
settlements; and (3) land cover.
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