Contrasting decadal trends of subsurface excess nitrate in the western and eastern North Atlantic Ocean

Temporal variations in excess nitrate (DINxs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements along meridional and zonal transects in the upper (200–600 m) North Atlantic (NAtl) between the 1980s and 2010s. The analysis revealed that...

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Published inBiogeosciences Vol. 17; no. 13; pp. 3631 - 3642
Main Authors Yang, Jin-Yu Terence, Lee, Kitack, Zhang, Jia-Zhong, Moon, Ji-Young, Lee, Joon-Soo, Han, In-Seong, Lee, Eunil
Format Journal Article
LanguageEnglish
Published Katlenburg-Lindau Copernicus GmbH 13.07.2020
Copernicus Publications
Subjects
Analysis
Anthropogenic factors
Atlantic Meridional Overturning Circulation (AMOC)
Bias
Biogeochemistry
Data analysis
Datasets
Dynamics
Fixation
Groundwater
Human influences
Meridional circulation
Nitrogen
Nitrogen deposition
Nitrogen fixation
Nitrogenation
Nutrient dynamics
Oceanic analysis
Oceans
Phosphorus
Seawater
Temporal variations
Time lag
Tropical climate
Ventilation
United States > US
Atlantic Ocean
Online AccessGet full text
ISSN1726-4189
1726-4170
1726-4189
DOI10.5194/bg-17-3631-2020

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Abstract Temporal variations in excess nitrate (DINxs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements along meridional and zonal transects in the upper (200–600 m) North Atlantic (NAtl) between the 1980s and 2010s. The analysis revealed that the DINxs trend in the western NAtl differed from that in the eastern NAtl. In the western NAtl, which has been subject to atmospheric nitrogen deposition (AND) from the USA, the subsurface DINxs concentrations have increased over the last 2 decades. This increase was associated with the increase in AND measured along the US East Coast, with a mean lag period of 15 years. This time lag was approximately equivalent to the time elapsed since the subsurface waters in the western NAtl were last in contact with the atmosphere (the ventilation age), suggesting a major role for a physical mechanism in transporting the AND signals to the subsurface. Our finding provides evidence that the DINxs dynamics in the western NAtl in recent years has been affected by anthropogenic nitrogen inputs, although this influence is weak relative to that in the western North Pacific. In contrast, a decreasing trend in subsurface DINxs was observed after the 2000s in the eastern NAtl, particularly in the high latitudes. This finding was not associated with the comparable decrease in AND from Europe. Other natural processes (a possible decline in tropical N2 fixation and weakening of the Atlantic meridional overturning circulation) may be responsible, but lack of time-resolved data on N2 fixation and meridional circulation is an impediment to assessment of these processes. Our results highlight the importance of both anthropogenic and natural forcing in impacting the nutrient dynamics in the upper NAtl.
AbstractList Temporal variations in excess nitrate (DINxs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements along meridional and zonal transects in the upper (200–600 m) North Atlantic (NAtl) between the 1980s and 2010s. The analysis revealed that the DINxs trend in the western NAtl differed from that in the eastern NAtl. In the western NAtl, which has been subject to atmospheric nitrogen deposition (AND) from the USA, the subsurface DINxs concentrations have increased over the last 2 decades. This increase was associated with the increase in AND measured along the US East Coast, with a mean lag period of 15 years. This time lag was approximately equivalent to the time elapsed since the subsurface waters in the western NAtl were last in contact with the atmosphere (the ventilation age), suggesting a major role for a physical mechanism in transporting the AND signals to the subsurface. Our finding provides evidence that the DINxs dynamics in the western NAtl in recent years has been affected by anthropogenic nitrogen inputs, although this influence is weak relative to that in the western North Pacific. In contrast, a decreasing trend in subsurface DINxs was observed after the 2000s in the eastern NAtl, particularly in the high latitudes. This finding was not associated with the comparable decrease in AND from Europe. Other natural processes (a possible decline in tropical N2 fixation and weakening of the Atlantic meridional overturning circulation) may be responsible, but lack of time-resolved data on N2 fixation and meridional circulation is an impediment to assessment of these processes. Our results highlight the importance of both anthropogenic and natural forcing in impacting the nutrient dynamics in the upper NAtl.
Temporal variations in excess nitrate (DIN xs ) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements along meridional and zonal transects in the upper (200–600 m) North Atlantic (NAtl) between the 1980s and 2010s. The analysis revealed that the DIN xs trend in the western NAtl differed from that in the eastern NAtl. In the western NAtl, which has been subject to atmospheric nitrogen deposition (AND) from the USA, the subsurface DIN xs concentrations have increased over the last 2 decades. This increase was associated with the increase in AND measured along the US East Coast, with a mean lag period of 15 years. This time lag was approximately equivalent to the time elapsed since the subsurface waters in the western NAtl were last in contact with the atmosphere (the ventilation age), suggesting a major role for a physical mechanism in transporting the AND signals to the subsurface. Our finding provides evidence that the DIN xs dynamics in the western NAtl in recent years has been affected by anthropogenic nitrogen inputs, although this influence is weak relative to that in the western North Pacific. In contrast, a decreasing trend in subsurface DIN xs was observed after the 2000s in the eastern NAtl, particularly in the high latitudes. This finding was not associated with the comparable decrease in AND from Europe. Other natural processes (a possible decline in tropical N2 fixation and weakening of the Atlantic meridional overturning circulation) may be responsible, but lack of time-resolved data on N2 fixation and meridional circulation is an impediment to assessment of these processes. Our results highlight the importance of both anthropogenic and natural forcing in impacting the nutrient dynamics in the upper NAtl.
Temporal variations in excess nitrate (DIN.sub.xs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements along meridional and zonal transects in the upper (200-600 m) North Atlantic (NAtl) between the 1980s and 2010s. The analysis revealed that the DIN.sub.xs trend in the western NAtl differed from that in the eastern NAtl. In the western NAtl, which has been subject to atmospheric nitrogen deposition (AND) from the USA, the subsurface DIN.sub.xs concentrations have increased over the last 2 decades. This increase was associated with the increase in AND measured along the US East Coast, with a mean lag period of 15 years. This time lag was approximately equivalent to the time elapsed since the subsurface waters in the western NAtl were last in contact with the atmosphere (the ventilation age), suggesting a major role for a physical mechanism in transporting the AND signals to the subsurface. Our finding provides evidence that the DIN.sub.xs dynamics in the western NAtl in recent years has been affected by anthropogenic nitrogen inputs, although this influence is weak relative to that in the western North Pacific. In contrast, a decreasing trend in subsurface DIN.sub.xs was observed after the 2000s in the eastern NAtl, particularly in the high latitudes. This finding was not associated with the comparable decrease in AND from Europe. Other natural processes (a possible decline in tropical N.sub.2 fixation and weakening of the Atlantic meridional overturning circulation) may be responsible, but lack of time-resolved data on N.sub.2 fixation and meridional circulation is an impediment to assessment of these processes. Our results highlight the importance of both anthropogenic and natural forcing in impacting the nutrient dynamics in the upper NAtl.
Temporal variations in excess nitrate (DINxs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements along meridional and zonal transects in the upper (200–600 m) North Atlantic (NAtl) between the 1980s and 2010s. The analysis revealed that the DINxs trend in the western NAtl differed from that in the eastern NAtl. In the western NAtl, which has been subject to atmospheric nitrogen deposition (AND) from the USA, the subsurface DINxs concentrations have increased over the last 2 decades. This increase was associated with the increase in AND measured along the US East Coast, with a mean lag period of 15 years. This time lag was approximately equivalent to the time elapsed since the subsurface waters in the western NAtl were last in contact with the atmosphere (the ventilation age), suggesting a major role for a physical mechanism in transporting the AND signals to the subsurface. Our finding provides evidence that the DINxs dynamics in the western NAtl in recent years has been affected by anthropogenic nitrogen inputs, although this influence is weak relative to that in the western North Pacific. In contrast, a decreasing trend in subsurface DINxs was observed after the 2000s in the eastern NAtl, particularly in the high latitudes. This finding was not associated with the comparable decrease in AND from Europe. Other natural processes (a possible decline in tropicalN2 fixation and weakening of the Atlantic meridional overturning circulation) may be responsible, but lack of time-resolved data onN2 fixation and meridional circulation is an impediment to assessment of these processes. Our results highlight the importance of both anthropogenic and natural forcing in impacting the nutrient dynamics in the upper NAtl.
Audience Academic
Author Yang, Jin-Yu Terence
Lee, Kitack
Lee, Eunil
Lee, Joon-Soo
Moon, Ji-Young
Zhang, Jia-Zhong
Han, In-Seong
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CitedBy_id crossref_primary_10_1016_j_scitotenv_2021_148401
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Snippet Temporal variations in excess nitrate (DINxs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements...
Temporal variations in excess nitrate (DIN.sub.xs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated...
Temporal variations in excess nitrate (DINxs) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated measurements...
Temporal variations in excess nitrate (DIN xs ) relative to dissolved inorganic phosphorus (DIP) were evaluated using datasets derived from repeated...
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StartPage 3631
SubjectTerms Analysis
Anthropogenic factors
Atlantic Meridional Overturning Circulation (AMOC)
Bias
Biogeochemistry
Data analysis
Datasets
Dynamics
Fixation
Groundwater
Human influences
Meridional circulation
Nitrogen
Nitrogen deposition
Nitrogen fixation
Nitrogenation
Nutrient dynamics
Oceanic analysis
Oceans
Phosphorus
Seawater
Temporal variations
Time lag
Tropical climate
Ventilation
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Title Contrasting decadal trends of subsurface excess nitrate in the western and eastern North Atlantic Ocean
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Volume 17
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