TY - JOUR
T1 - Productivity in the Gulf of California large marine ecosystem
AU - Mercado-Santana, J. Alfredo
AU - Santamaría-del-Ángel, Eduardo
AU - González-Silvera, Adriana
AU - Sánchez-Velasco, Laura
AU - Gracia-Escobar, M. Fernanda
AU - Millán-Núñez, Roberto
AU - Torres-Navarrete, Carlos
N1 - Publisher Copyright:
© 2017 Elsevier Ltd
PY - 2017/6
Y1 - 2017/6
N2 - The analysis of primary productivity (PP) is essential for understanding the dynamics of marine ecosystems such as the Gulf of California Large Marine Ecosystem (GC-LME). This ecosystem is highly productive and supports an intense fishing activity (deep-sea, artisanal and sport fishing). The main objective of this investigation was to describe the spatial and temporal variability of phytoplankton primary productivity within the GC-LME based on 14 regions. A primary productivity database was built using 524 surface 14C productivity measurements from 1960 to 2016. This information was supplemented with productivity calculations from satellite models. The analysis of the statistical descriptors of in-situ measurements revealed that primary productivity spatial distribution displayed a latitudinal gradient with increasing values to the north. In the warm season, the highest with 363.90 mgC m−3 D−1), Archipelago Region (Region VII 181.74 mgC m−3 D−1) and Canal de Ballenas (Region V 152.99 mgC m−3 D−1). The lowest surface values were reported in the southern regions (IX, XI and XIII), with average values of 19.42, 29.22 and 18.15 mgC m−3 D−1. This is the deepest portion of the GC-LME that has been described as a complex area with a thermohaline structure related to the confluence of three different currents — North Equatorial Current, California Current and GC-LME water — that produce local fronts, eddies and intrusions, that affect productivity. In general, the temporal comparison showed that surface PP averages were higher in the warm season than in the cold season. In the GC-LME nutrient availability is high all year round, so these higher PP values are explained because in the warm season phytoplankton has more day-light hours.
AB - The analysis of primary productivity (PP) is essential for understanding the dynamics of marine ecosystems such as the Gulf of California Large Marine Ecosystem (GC-LME). This ecosystem is highly productive and supports an intense fishing activity (deep-sea, artisanal and sport fishing). The main objective of this investigation was to describe the spatial and temporal variability of phytoplankton primary productivity within the GC-LME based on 14 regions. A primary productivity database was built using 524 surface 14C productivity measurements from 1960 to 2016. This information was supplemented with productivity calculations from satellite models. The analysis of the statistical descriptors of in-situ measurements revealed that primary productivity spatial distribution displayed a latitudinal gradient with increasing values to the north. In the warm season, the highest with 363.90 mgC m−3 D−1), Archipelago Region (Region VII 181.74 mgC m−3 D−1) and Canal de Ballenas (Region V 152.99 mgC m−3 D−1). The lowest surface values were reported in the southern regions (IX, XI and XIII), with average values of 19.42, 29.22 and 18.15 mgC m−3 D−1. This is the deepest portion of the GC-LME that has been described as a complex area with a thermohaline structure related to the confluence of three different currents — North Equatorial Current, California Current and GC-LME water — that produce local fronts, eddies and intrusions, that affect productivity. In general, the temporal comparison showed that surface PP averages were higher in the warm season than in the cold season. In the GC-LME nutrient availability is high all year round, so these higher PP values are explained because in the warm season phytoplankton has more day-light hours.
KW - Cortezian MEOW
KW - Gulf of California
KW - Large marine ecosystem
KW - Primary productivity
UR - http://www.scopus.com/inward/record.url?scp=85013113300&partnerID=8YFLogxK
U2 - 10.1016/j.envdev.2017.01.003
DO - 10.1016/j.envdev.2017.01.003
M3 - Artículo
SN - 2211-4645
VL - 22
SP - 18
EP - 29
JO - Environmental Development
JF - Environmental Development
ER -