Groundwater nutrient inputs into an urbanized tropical estuary system in Indonesia

•Groundwater discharges 106,000mold−1 of DIN and 5000mold−1 of DIP to the river.•Land use and environmental infrastructure correlates with nutrient dynamics.•Medium populated cities can contribute to nutrient flux comparable with megacities. [Display omitted] Groundwater discharge is known to transp...

Full description

Saved in:
Bibliographic Details
Published in:The Science of the total environment 2018-06, Vol.627, p.1066-1079
Main Authors: Adyasari, Dini, Oehler, Till, Afiati, Norma, Moosdorf, Nils
Format: Article
Language:English
Subjects:
Estuary
Groundwater discharge
Indonesia
Medium cities
Nutrient
Radon
Water quality
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Groundwater discharges 106,000mold−1 of DIN and 5000mold−1 of DIP to the river.•Land use and environmental infrastructure correlates with nutrient dynamics.•Medium populated cities can contribute to nutrient flux comparable with megacities. [Display omitted] Groundwater discharge is known to transport nutrients into estuaries at several locations around the world. However, few studies report groundwater-associated nutrient fluxes from tropical developing regions such as Southeast Asia, even though this area shows the strongest human modifications in the coastal zone worldwide. We investigated groundwater nutrient flux into two streams and estuaries (Awur and Sekumbu Bay) in the urban area of Jepara, Indonesia, and its relation with the land usage surrounding the estuaries. We found that average concentrations of NO3, NH4, and PO4 in Jepara's aquifer reached 145μM, 68μM, and 14μM, respectively, and our results indicate that these were mainly originated from untreated sewage, agriculture, and manure input. Approximately 2200tonNyear−1 and 380tonPyear−1 were removed in the soil and aquifer before the nutrients were discharged into the river. The total groundwater discharge into the river and estuary was estimated to 461×103m3d−1, or up to 42% of the river discharge. Discharge of groundwater-associated NO3 (72×103mold−1), NH4 (34×103mold−1), PO4 (5×103mold−1), and additional surface runoff may contribute to eutrophication and a decrease of nearshore surface water quality. Nutrient concentrations in groundwater, river, and coastal seawater in the Jepara region are similar to those found in major urban areas in Southeast Asia, e.g. Manila and Bangkok, even though Jepara has smaller size and population. Thus, our results indicate that medium populated cities with highly modified regional land use can contribute a significant amount of nutrient discharge in the coastal area and should be included in global assessments of nutrient budget calculation.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2018.01.281