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All Journal JOURNAL OF COASTAL DEVELOPMENT Jurnal Ilmiah Ecosystem
andi GUsti Tantu
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THE DYNAMIC OF LANDSCAPE CHANGE AT COAST AREA, IN LABAKKANG SUBDISTRICT, PANGKEP REGENCY, SOUTH SULAWESI andi GUsti Tantu; S Soemarno; Nuddin Harahab; Ahmad Mustafa
JOURNAL OF COASTAL DEVELOPMENT Vol 15, No 2 (2012): Volume 15, Number 2, Year 2012
Publisher : JOURNAL OF COASTAL DEVELOPMENT

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (466.75 KB)

Abstract

Development is a changing process to improve human standard of life that strongly related to the activities of natural resource utilization. It is frequently found that these activities  change the ecosystems and their resources.  Eventually, these changes will give serious impacts to the environments. The most distinct environmental problems are caused by resident migration to the coastal areas, coastal developments, and land limitation. Coastal reclamation is an example of human effort to respond to the land limitation in the coastal areas as observed in coastal areas of Labakkang Subdistrict. Reclamation activity is doing along the coast of Pundata Baji Village, whereas, in other villages, cutting off of mangrove areas as an alternative land expansion is increasingly practiced by the local communities. This Research was aimed to observe the landscape change from 1980 to 2010 at coast area in Labakkang Subdistrict. Each review considers Landsat Image Map (acquired in 1980); Landsat Image Map (acquired in 1990); Landsat  Image Map-7 Enhanced Thematic Mapper Plus (ETM+) (acquired in 2000); Spot Image 4 (acquired in 2005); and Spot 4 LAPAN (acquired in 2010). Result of research indicates that at coast area of Labakkang Subdistrict in 1980, there are 248.3 ha of mangrove vegetation, 2,756.63 ha inundation, and 4,157.0 ha open land. In 1990, there are 234.2 ha mangrove vegetation, 2,251.63 ha embankment, 933.2 ha rice field, and 582.0 ha open land. In 2000, there are 218.3 ha mangrove vegetation, 2,848.1 ha embankment, and 3,579.2 ha rice field. In 2005, it has 121.4 ha mangrove vegetation, 3,762.6 ha embankment, and 2,306.2 ha rice field. In 2010, it is found 48.9 ha mangrove vegetation, 5,029.35 ha embankment, and 749.98 ha rice field.
Status Pencemaran Logam Berat Timbal dan Kadmium di Sungai Tallo Menggunakan Bioindikator Ikan Nila Oreochromis Niloticus Indrawati, Erni; Musada, Zulkarnain; Tantu, Andi Gusti; Renal, Renal
Jurnal Ilmiah Ecosystem Vol. 22 No. 2 (2022): ECOSYSTEM Vol. 22 No 2, Mei - Agustus Tahun 2022
Publisher : Lembaga Penelitian dan Pengabdian kepada Masyarakat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35965/eco.v22i2.1562

Abstract

Perairan Sungai Tallo mengalami tekanan dari lingkungan di sepanjang aliran sungai berupa pemukiman, pertambakan, dan pertanian. Disamping itu, beberapa perusahaan diduga melakukan pencemaran dengan membuang limbah cair serta bahan berbahaya dan beracun di sepanjang aliran Sungai Tallo tanpa melalui proses pengolahan. Penelitian ini bertujuan untuk menganalisa status pencemaran logam berat timbal dan cadmium di perairan Sungai Tallo menggunakan bioindikator ikan nila. Penelitian ini dilaksanakan pada bulan November 2019-Februari 2021, di perairan Sungai Tallo, Kota Makassar. Pengabilan sampel air dan ikan nila berupa organ hati dan insang dilakukan di tiga stasiun Keramba Jaring Apung, kemudian dianalisis di Laboratorium Balai Besar Industri Hasil Perkebunan Makassar. Parameter kualitas air yang diukur yakni parameter fisika meliputi suhu, kekeruhan, kecerahan, kecepatan arus dan kedalaman, sedangkan parameter kimia meliputi pH, oksigen terlarut, salinitas, Biochemical Oxygen Demand, amoniak, nitrat, timbal dan kadmium. Selanjutnya parameter biologi organ ikan nila, yaitu organ hati dan insang. Data yang dianalisis berupa indeks pencemaran lingkungan dan biokonsentrasi faktor. Hasil penelitian menunjukkan bahwa parameter yang masuk ke dalam kategori cemar ringan yaitu oksigen terlarut, logam berat timbal, dan kadmium, cemar sedang yaitu suhu dan Biochemical Oxygen Demand, serta cemar berat yaitu amoniak. Sedangkan kategori baik yaitu kedalaman, kecepatan arus, kecerahan, pH, dan salinitas. Nilai biokonsentrasi faktor tertinggi logam berat timbal pada organ insang yaitu umur pemeliharaan satu bulan dan yang terendah umur pemeliharaan empat bulan. Nilai biokonsentrasi faktor logam berat kadmium pada organ insang dan hati memiliki nilai yang sama untuk semua waktu pemeliharaan. The waters of the Tallo River experience pressure from the environment along the river in the form of settlements, aquaculture, and agriculture. In addition, several companies are suspected of polluting by disposing of liquid waste as well as hazardous and toxic materials along the Tallo River without going through a processing process. This study aims to analyze the pollution status of lead and cadmium heavy metals in the waters of the Tallo River using tilapia bioindicators. This research was conducted in November 2019-February 2021, in the waters of the Tallo River, Makassar City. Water samples and tilapia in the form of liver and gills were carried out at three floating net cages stations, then analyzed at the Makassar Plantation Product Industrial Center Laboratory. The water quality parameters measured were physical parameters including temperature, turbidity, brightness, current speed and depth, while chemical parameters included pH, dissolved oxygen, salinity, Biochemical Oxygen Demand, ammonia, nitrate, lead and cadmium. Furthermore, the biological parameters of tilapia organs, namely the liver and gills. The data analyzed in the form of environmental pollution index and bioconcentration factors. The results showed that the parameters that fall into the category of light pollutants are dissolved oxygen, heavy metals lead, and cadmium, moderate pollutants are temperature and Biochemical Oxygen Demand, and heavy pollutants are ammonia. While the good categories are depth, current velocity, brightness, pH, and salinity. The highest bioconcentration value of lead heavy metal in the gills was one month of rearing age and the lowest was four months of rearing age. The value of the heavy metal factor cadmium bioconcentration in the gills and liver had the same value for all rearing timesdecisions.
Co-Authors Ahmad Mustafa Erni Indrawati Nuddin Harahab Renal, Renal S Soemarno