TY - JOUR
T1 - Nutrients in tropical and temperate rivers and floodplains – comparison of the Rivers Songkhram (Thailand) and Narew (Poland)
AU - Walalite, Tanapipat
AU - Dekker, Stefan C.
AU - Schot, Paul P.
AU - Kardel, Ignacy
AU - Okruszko, Tomasz
AU - Wassen, Martin J.
N1 - Funding Information:
We thank the Institute of Meteorology and Water Management (IMGW-PIB) for providing the hydrological data of the River Narew and the Chief Inspectorate of Poland's Environmental Protection for the Narew River’s water quality data. We also thank the Royal Irrigation Department of Thailand for providing the hydrological data of the River Songkhram, Thailand, and the Thai Department of Pollution Control for providing water quality data on the River Songkhram. This research was partly supported by a grant from the Thai Government Science and Technology Scholarship Students program granted to Tanapipat Walalite.
Funding Information:
We thank the Institute of Meteorology and Water Management (IMGW-PIB) for providing the hydrological data of the River Narew and the Chief Inspectorate of Poland's Environmental Protection for the Narew River’s water quality data. We also thank the Royal Irrigation Department of Thailand for providing the hydrological data of the River Songkhram, Thailand, and the Thai Department of Pollution Control for providing water quality data on the River Songkhram. This research was partly supported by a grant from the Thai Government Science and Technology Scholarship Students program granted to Tanapipat Walalite.
Publisher Copyright:
© 2023, The Author(s).
PY - 2023/6
Y1 - 2023/6
N2 - Ecological processes in floodplains may function differently across climate regions. We compared the river discharge, water chemistry, and nutrient budget and balance of floodplain vegetation in a temperate climate (River Narew, Poland) with those in a tropical climate (River Songkhram, Thailand). Both rivers show a discharge regime with a flood pulse, following snowmelt (Narew) or monsoon rainfall (Songkhram), with peak discharges roughly 25 times higher in the River Songkhram. Electrical Conductivity (EC) values of both rivers are generally comparable, while nutrient concentrations are somewhat higher in the temperate River Narew (with total phosphorus (TP) approximately 1.5 and total inorganic nitrogen (TIN) approximately 2.2 times higher than in Songkhram). A comparison of the nutrient budget of floodplain vegetation suggests that soil is the most important source of nutrients for most vegetation types, i.e., Narew sedge (N), Narew forest floor (N and P), Songkhram bamboo (N and P), and Songkhram grass (P). Additionally, floodwater is the main input source of P for the Narew sedge and a secondary input source for Songkhram grass. Vegetation close to the river tends to have higher productivity, emphasizing the nutrient-filtering function of floodplain vegetation. For both rivers, nutrient input into the floodplains by floodwater is higher than nutrient export from the floodplains, indicating that both floodplains have a nutrient sink function. These findings demonstrate that the floodwater pulse is a source of nutrient input for floodplain vegetation in both temperate and tropical climates, with the soil playing a vital role in the nutrient budgets and balance.
AB - Ecological processes in floodplains may function differently across climate regions. We compared the river discharge, water chemistry, and nutrient budget and balance of floodplain vegetation in a temperate climate (River Narew, Poland) with those in a tropical climate (River Songkhram, Thailand). Both rivers show a discharge regime with a flood pulse, following snowmelt (Narew) or monsoon rainfall (Songkhram), with peak discharges roughly 25 times higher in the River Songkhram. Electrical Conductivity (EC) values of both rivers are generally comparable, while nutrient concentrations are somewhat higher in the temperate River Narew (with total phosphorus (TP) approximately 1.5 and total inorganic nitrogen (TIN) approximately 2.2 times higher than in Songkhram). A comparison of the nutrient budget of floodplain vegetation suggests that soil is the most important source of nutrients for most vegetation types, i.e., Narew sedge (N), Narew forest floor (N and P), Songkhram bamboo (N and P), and Songkhram grass (P). Additionally, floodwater is the main input source of P for the Narew sedge and a secondary input source for Songkhram grass. Vegetation close to the river tends to have higher productivity, emphasizing the nutrient-filtering function of floodplain vegetation. For both rivers, nutrient input into the floodplains by floodwater is higher than nutrient export from the floodplains, indicating that both floodplains have a nutrient sink function. These findings demonstrate that the floodwater pulse is a source of nutrient input for floodplain vegetation in both temperate and tropical climates, with the soil playing a vital role in the nutrient budgets and balance.
KW - Flood Pulse
KW - Nutrient budget
KW - Temperate river
KW - Tropical monsoon river
UR - http://www.scopus.com/inward/record.url?scp=85158170482&partnerID=8YFLogxK
U2 - 10.1007/s13157-023-01694-3
DO - 10.1007/s13157-023-01694-3
M3 - Article
AN - SCOPUS:85158170482
SN - 0277-5212
VL - 43
JO - Wetlands
JF - Wetlands
IS - 5
M1 - 46
ER -