Siti Sundari Miswadi
Pusat Penelitian Kependudukan, Gender dan Lingkungan Hidup
Lembaga Penelitian dan Pengabdian pada Masyarakat UNNES
Email: sundari_pr@yahoo.com
Flood becomes annual agenda for the people who live in the coastal area of Semarang. But now, the regions which far from the coast are now no longer free from the flood and sea water intrusion. It happens because the water already exceeds the amount of soil replenishment (recharge), and the land has lost its function in absorbing water due to uncontrolled construction of buildings and housing which are not environmentally friendly. This study aims to map the level of sea water intrusion in the dug wells based on “Chloride-Bicarbonate Ratio”, and electrical conductivity (DHL) and salinity in the city of Semarang. Research conducted on 30 dug wells owned by residents of the distance from the coast between 0,5-5 (five) kilometers. Sea water intrusion rate was calculated based on the ratio of chloride to carbonate and bicarbonate, and the results were plotted on base maps.
The results showed the level of sea water intrusion and the value of DHL in the eastern part of Semarang city much worse than the west coast area of Semarang, while the levels of salinity in most areas of research were in average levels. The results of studies using the Biopore Absorption Hole (LRB) as an absorbent showed during the third week after the construction of LRB, it was acquired that the sea water intrusion rates increased by 66.64% wells, and as many 33.33% wells decreased, whereas at the sixth week the sea water intrusion rates of 66.64% wells decreased whether 33.33% wells increased. Levels of salinity in the third week of 83.30% wells decreased, and 16.66% wells remained the same, whereas in the sixth week the salinity level of 49.90% wells increased, 33.33% wells decreased and 16.66% wells remained the same. Electrical conductivity (DHL) in the third week was detected to increase in 16.66% wells, and decrease in 83.30% wells, while the sixth week, the DHL in 49.98% wells increased and 49.98% wells decreased. pH value in the third week was detected to decrease in 100% wells, while in the sixth week, the pH value decreased in 66.64% wells and 33.33% wells increased. Levels of NO3- in the third week and sixth week obtained the same results, which were 16.66% wells increased and 83.30% wells decreased. PO43- levels in the third week was detected for 100% of the wells decreased, while the sixth week 16.66% wells decreased and 83.30% wells increased. Turbidity value in the third week was detected to increase in 16.66% wells and 83.30% wells decreased, while the sixth week 49.98% wells increased in their turbidity and 49.98% wells decreased. Based on the research, it can be concluded that after the use of LRB in the third week, as many 82.41% wells decreased and 17.59% wells increased in the seven parameters, while in the sixth week as many 54.75% wells decreased and 45.25% wells increased in seven parameters. Optimal results of LRB usage as absorbent were obtained in the sixth week.
Keywords: the level of sea water intrusion, “chloride-bicarbonate ratio”, biopore absorption hole