Denitrification and a Nitrogen Budget of Created Riparian Wetlands

Batson, Jacqulyn A.

02 November 2010

No description available.

Biogeochemistry

Ecology

Environmental Science

Gases

denitrification

created wetlands

nitrate-nitrogen

riparian marsh

agricultural runoff

Olentangy River Wetland Research Park

nitrogen cycle

Påverkan av djup och fosfors tillgänglighet på konstruerade våtmarkers förmåga att avskilja kväve / The impact of depth and phosphorus availability on constructed wetlands capability to separate nitrogen

Kojic, Selma

January 2020

Eutrophication is an expanding issue due to the increase of human-induced nitrogen leakage from agriculture. Eutrophication can lead to severe environmental problems such as exaggerated algal bloom and oxygen deprivation in water courses. One approach to clear away nitrogen is to use constructed wetlands. Wetlands have the ability to clean the water that flows through it by biological, chemical and physical reactions. The aim of this study is to determine if a deep or shallow wetland is more advantageous in removing nitrogen and how phosphor addition affects nitrogen removal. The method used was analysis of concentrations of nitrate, nitrite (NO3- + NO2-) and phosphorous from the years 2018 and 2019 from an experimental wetland in Halmstad, Sweden, and carrying out a quantitative experimental study. The results showed that NO3- + NO2- removal was higher in deeper wetlands for both years and for the removal rate coefficients in 2019. Ponds with phosphorus addition had an increase in NO3- + NO2- removal. The research conclusion was that the deeper wetlands are more efficient at removing nitrogen than shallow. Phosphorous addition increases the nitrogen removal in both shallow and deep ponds. Shallow wetlands might have potential to become superior compared to deep wetlands when the vegetation and bacteria establish. This statement however requires further research. / 42 % av människorelaterade kväveutsläpp kommer från jordbruket av bland annat gödsling och plöjning av mark. Dessa emissioner kan leda till ett flertal miljöproblem som övergödning och syrebrist i närliggande vattenområden. Ett sätt att minska kväveutsläppet från jordbruken kan vara att använda sig av konstruerade våtmarker. Syftet med denna studie är att undersöka om en våtmark med högre eller lägre djup är mest effektiv på att avskilja kväve. Det ska också granskas om fosfortillsats påverkar kväveborttagningen i både grunda och djupa dammar. Frågeställningarna i studien är: Är djupa eller grunda dammar mest effektiva på att avskilja kväve? Hur påverkar fosfortillsats dammarnas förmåga att avskilja kväve? Vilken typ av damm är mest kostnadseffektiv? För att besvara de tre frågeställningarna utfördes en kvantitativ studie. Metoden delades in i 4 delar: fältarbete, laboratorium, databearbetning och datainsamling. Av dessa 4 var databearbetning den huvudsakliga beståndsdelen i resultatet där NO3 -+ NO2 - koncentrationer behandlades i flera formler för att få fram koncentrationsskillnaden, procentuella borttagningen och areella borttagningskoefficienten. Resultatet som genererades visade att för 2018 och 2019 var de effektivaste dammarna de djupa med fosfortillsats. Fosfortillsats minskade upptaget av kväve för grunda dammar i 2018, men ökade upptaget för både djupa och grunda dammar för 2019. När kväveavskiljningen relaterades till yta och temperatur för 2019 blev skillnaden mellan djupa och grunda avsevärt mindre. Sammanfattningsvis blev slutsatsen i arbetet att djupa dammar med fosfortillsats är effektivast. Från beräkningarna av den areella borttagningskoefficienten kan man se en möjlighet för grunda dammar att bli ännu effektivare än djupa när deras överlägsna vegetation och bakterietillväxt väl etablerat sig. På grund av att skillnaden är minimal mellan djupa och grunda dammar är det möjligt att den mest kostnadseffektiva dammen är en grund sådan.

constructed wetland

nitrogen removal

phosphorous

eutrophication

agricultural runoff

experimentell våtmark

kväveborttagning

fosfor

övergödning

jordbruksavrinning

Environmental Sciences

Miljövetenskap

Water Engineering

Vattenteknik

Miljö- och naturvårdsvetenskap

Observation of organic matters concentrations in agricultural runoff in the Red River Delta (Vietnam)

Le, Nhu Da, Le, Thi Phuong Quynh, Duong, Thi Thuy

13 May 2020

Due to utilization increase of chemical fertilizers and manures and of a large water volume for irrigation, agricultural runoff has significantly accelerated water pollution. The Red River locates in Vietnam where agriculture plays an important role in the country’s economy. This paper presented the observation results of organic matters concentrations in agricultural runoff from different plant fields (vegetable, flower and rice) in the Red River Delta in 2013 -2014. The results showed that DOC concentrations varied in a high range from 1.0 mg.L-1 to 37.1 mg.L-1, averaging 10.2 ± 6.2 mg.L-1 whereas POC concentrations varied from 0.5 to 4.5 mg.L-1, averaging 1.7 ± 0.7 mg.L-1 for a total 104 samples observed. TOC concentrations in water from the vegetable and flower fields (11.7 ± 7.3 mg.L-1 and 12.6 ± 6.0 mg.L-1 respectively) were higher than the one from the rice field (8.5 ± 6.6 mg.L-1). Lower organic matters concentrations were found in the rainy season than in the dry season due to dilution process. The results suggest the needs for regularly monitoring and efforts to control organic matter pollution from agricultural runoff in the Red River basin or other river basins in developing countries. / Do sử dụng phân bón và thể tích nước tưới lớn, canh tác nông nghiệp đã và đang góp phần đáng kể gây ô nhiễm nguồn nước. Sông Hồng nằm ở Việt Nam, nơi ngành nông nghiệp đóng vai trò quan trọng trong nền kinh tế. Bài báo trình bày kết quả quan trắc hàm lượng cacbon hữu cơ (TOC) bao gồm dạng hòa tan (DOC) và không tan (POC), trong nước chảy tràn từ đất canh tác (rau, hoa, lúa) ở đồng bằng sông Hồng năm 2013 -2014. Kết quả cho thấy DOC thay đổi rất rộng từ 1,0 mg.L-1 đến 37,1 mg.L-1, trung bình đạt 10,2 ± 6,2 mg.L-1 trong khi POC thay đổi từ 0,5 mg. L-1 đến 4,5 mg.L-1, trung bình đạt 1,7 ± 0,7 mg.L-1 đối với 104 mẫu nước. TOC từ trồng rau và hoa (11,7 ± 7,3 mg. L-1 và 12,6 ± 6,0 mg.L-1) cao hơn so với trồng lúa (8,5 ± 6,6 mg. L-1). TOC trong mùa mưa thấp hơn so với mùa khô. Cần thường xuyên giám sát và nỗ lực kiểm soát ô nhiễm chất hữu cơ do nước chảy tràn từ đất canh tác ở lưu vực sông Hồng.

info:eu-repo/classification/ddc/363

ddc:363

info:eu-repo/classification/ddc/7

ddc:7

Groundwater Contamination in the Cortaro Area, Pima County, Arizona

Schmidt, Kenneth D.

06 May 1972

From the Proceedings of the 1972 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - May 5-6, 1972, Prescott, Arizona / High concentrations of nitrate have been found in water samples from irrigation wells north of the Tucson Arizona sewage treatment plant. The plant, which had primary treatment prior to 1951, produced 2,800 acre-feet of effluent in 1940, 4,600 acre-feet in 1950, 16,300 acre-feet in 1960, and 33,000 acre-feet in 1970. Large amounts of treated effluent recharge the groundwater system north of the plant. Sources of nitrate contamination beside sewage effluent may be sewage lagoons, sanitary landfills, meat packing and dairy effluent, septic tanks, and agricultural runoff. Sewage effluent is considered to be the primary source of nitrate contamination in the area. Geologic and flow net analysis indicate that aquifer conditions minimize the effects of sewage effluent contamination. Chloride and nitrate migration appears to be similar in the aquifer. Large-capacity wells were sampled to reflect regional conditions, and chemical hydrographs of chloride and nitrate were analyzed. The seasonal nature of these hydrographs patterns depend on total nitrogen in sewage effluent. Management alternatives are suggested to decrease nitrate pollution by sewage effluent.

Hydrology -- Arizona.

Water resources development -- Arizona.

Hydrology -- Southwestern states.

Groundwater

Water pollution

Nitrates

Irrigation wells

Sewage disposal

Sewage treatment

Effluents

Groundwater recharge

Sewage lagoons

Sanitary engineering

Landfills

Septic tanks

Agricultural runoff

Geologic investigations

Flow nets

Analysis

Chlorides

Water wells

Seasonal

Hydrographs

Water management (applied)

Arizona

Arid lands

Salinity Problems of the Safford Valley: An Interdisciplinary Analysis

Muller, Anthony B.

05 May 1973

From the Proceedings of the 1973 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - May 4-5, 1973, Tucson, Arizona / A change in groundwater quality, averaging approximately +0.13 millimhos electrical conductivity and +35 ppm chloride per year, has been documented between 1940 and 1972 with data from ten long -term sample wells. The decrement in the water quality of the surficial aquifer seems to be attributable to four major mechanisms. An increase in salinity may be expected from leakage of saline water from the artesian aquifer. Such leakage would be stimulated by pumping- caused reduction of confining pressure, and by the puncture of the cap beds by deep wells. Water reaching the aquifer from natural recharge may contribute salts to the system. Such recharging water, if passed through soluble beds, could contribute to the salt. Lateral movement of water through similar deposits may be a contribution, and the concentration and infiltration of agricultural water could also add to aquifer salinity. The economic analysis of the Safford Valley, based on the modeling of a "Representative Farm" analog, indicates that cotton will remain economical to produce on the basis of the projected salinity trends, for a significant time beyond limits of prediction. The analysis indicates that the optimum salt-resistant crops for the area are being cultivated, and, of these, alfalfa will cease to be productive in large areas of the valley by 1990. The entire valley will not produce alfalfa for profit by 2040. The methodologies shown in the paper indicate how pumping influences salinity change and outline salinity control recommendations for the area.

Hydrology -- Arizona.

Water resources development -- Arizona.

Hydrology -- Southwestern states.

Salinity

Water quality

Leakage

Agricultural runoff

Crop production

Arizona

Cotton

Alfalfa

Aquifer systems

Artesian aquifers

Deep wells

Salts

Salt tolerance

Water pollution sources

Irrigation water

Water quality control

Safford Valley (Ariz)