Japan Geoscience Union Meeting 2023

Presentation information

[J] Online Poster

A (Atmospheric and Hydrospheric Sciences ) » A-HW Hydrology & Water Environment

[A-HW23] Isotope Hydrology 2023

Thu. May 25, 2023 10:45 AM - 12:15 PM Online Poster Zoom Room (7) (Online Poster)

convener:Masaya Yasuhara(Rissho Univ.), Kazuyoshi Asai(Geo Science Laboratory), Takashi Nakamura(International Research Center for River Basin Environment, University of YAMANASHI), Shinji Ohsawa(Institute for Geothermal Sciences, Graduate School of Science, Kyoto University)

On-site poster schedule(2023/5/24 17:15-18:45)

10:45 AM - 12:15 PM

[AHW23-P05] Water chemistry and nitrogen isotopic ratio of river water in the Makinohara Plateau, Shizuoka, Japan

Tatsuya Shimeno1, *Masaya Yasuhara1, Seongwon Lee1, Yuki Itoh3, Takashi Nakamura2 (1.Rissho Univ., 2.Yamanashi Univ., 3.Graduate School, Rissho Univ.)

Keywords:Tea cultivation, River water, Water chemistry, Dissolved aluminum, Nitrogen isotope

We investigated the effects of fertilizer application to tea plantations on river water quality (major dissolved components and heavy metals) in 24 small rivers that drain the northern part of the Makinohara Plateau (200-250 m above sea level) in Shizuoka Prefecture, one of the most famous tea-growing areas in Japan. River water sampling were conducted on August 28 and 29, 2022, from the 24 catchments covering an area of 0.027-0.70 km2, with tea plantations occupying 7-100 % of the catchment area (the rest is mainly forested). The difference in elevation (Δh) between the highest point of the respective catchment and water sampling point is 24-176 m. The plateau is covered by the Makinohara Gravel Bed of about 20-30 m in thick, which is underlain by the about 30 m thick Furuya Mud Bed (silt and sandy silt). The groundwater table is located within the Makinohara Gravel Bed.
The river water in and around the Makinohara Plateau was heavily contaminated by the fertilizers and was of Ca-SO4·NO3 type. The lowest pH value was 4.2. The concentrations of NO3- and SO42- in the river water generally follows the relationship of NO3- : SO42- = 1: 0.77, when ammonium sulfate is dissolved. The NO3- and SO42- concentrations tend to increase as the areal percentage of tea plantations in the catchment increases, whereas HCO3- concentration tends to decrease. Due to the acidification of groundwater by fertilizer application, heavy metals such as aluminum (0.02-17.4 mg/L) are loaded into the river. The concentrations of NO3- and SO42- in river water are strongly dependent on elevation, i.e., the smaller the Δh (upstream), the higher the concentrations, and the concentrations decrease as the river water flows downstream. The nitrogen and oxygen isotopic ratios of NO3- are low for the smaller Δh cases, which is characteristic of chemical fertilizers (δ15N is generally less than 5-8 ‰), but the isotopic ratios show an increasing tendency as the river water flows downstream. We will be able to clarify the water quality evolution process of river water in more detail by understanding the quality and nitrogen and sulfur isotope ratios of groundwater in the Furuya Mud Bed.