Your search keyword '"Goes, Joaquim I."' showing total 6 results

1. Transitions in nitrogen and organic matter form and concentration correspond to bacterial population dynamics in a hypoxic urban estuary.

Author

Humphries, Georgie E., Espinosa, Jessica I., Ambrosone, Mariapaola, Ayala, Zabdiel Roldan, Tzortziou, Maria, Goes, Joaquim I., and Greenfield, Dianne I.

Subjects

POPULATION dynamics, ORGANIC compounds, BACTERIAL population, ALGAL blooms, WATER quality, WATER depth, NITROGEN cycle, ESTUARIES

Abstract

Nitrogen (N) inputs to developed coastlines are linked with multiple ecosystem and socio-economic impacts worldwide such as algal blooms, habitat/resource deterioration, and hypoxia. This study investigated the microbial and biogeochemical processes associated with recurrent, seasonal bottom-water hypoxia in an urban estuary, western Long Island Sound (WLIS), that receives high N inputs. A 2-year (2020–2021) field study spanned two hypoxia events and entailed surface and bottom depth water sampling for dissolved nutrients as inorganic N (DIN; ammonia-N and nitrite + nitrate (N + N)), organic N, orthophosphate, organic carbon (DOC), as well as chlorophyll a and bacterial abundances. Physical water quality data were obtained from concurrent conductivity, temperature, and depth casts. Results showed that dissolved organic matter was highest at the most-hypoxic locations, DOC was negatively and significantly correlated with bottom-water dissolved oxygen (Pearson's r = −0.53, p = 0.05), and ammonia-N was the dominant DIN form pre-hypoxia before declining throughout hypoxia. N + N concentrations showed the reverse, being minimal pre-hypoxia then increasing during and following hypoxia, indicating that ammonia oxidation likely contributed to the switch in dominant DIN forms and is a key pathway in WLIS water column nitrification. Similarly, at the most hypoxic sampling site, bottom depth bacteria concentrations ranged ~ 1.8 × 104–1.1 × 105 cells ml−1 pre-hypoxia, declined throughout hypoxia, and were positively and significantly correlated (Pearson's r = 0.57; p = 0.03) with ammonia-N, confirming that hypoxia influences N-cycling within LIS. These findings provide novel insight to feedbacks between major biogeochemical (N and C) cycles and hypoxia in urban estuaries. [ABSTRACT FROM AUTHOR]

Published

2023

2. Seasonal and interannual variations of MODIS Aqua chlorophyll-a (2003–2017) in the Upper Gulf of Thailand influenced by Asian monsoons.

Author

Luang-on, Jutarak, Ishizaka, Joji, Buranapratheprat, Anukul, Phaksopa, Jitraporn, Goes, Joaquim I., Kobayashi, Hiroshi, Hayashi, Masataka, Maúre, Elígio de Raús, and Matsumura, Satsuki

Subjects

MONSOONS, EL Nino, LA Nina, SEASONS, WIND speed

Abstract

Seasonal and interannual variations of chlorophyll-a (chl-a) in the upper Gulf of Thailand (uGoT) were obtained using new regionally tuned algorithms applied to Moderate Resolution Imaging Spectroradiometer-Aqua. This long time-series (2003–2017) data were analyzed in the context of variations in environmental conditions associated with the Southeast Asian Monsoon. Chl-a distribution patterns were distinct for the non-monsoon (NOM), southwest-monsoon (SWM), and northeast-monsoon (NEM) seasons. During the SWM/NEM, high/low chl-a concentrations were associated with high/low precipitation and river discharge. During the NOM chl-a concentrations were generally low, because of low precipitation. In general, chl-a variability was tightly coupled to discharge from the Chao Phraya and Tha Chin rivers. Chl-a concentrations were generally higher in the north, but chl-a accumulation in the east/west of the uGoT could be linked to piling of freshwater to the east/west during the SWM/NEM caused by changes in wind direction and the reversal of currents. Interannual changes in chl-a were attributed to El Niño-Southern Oscillation (ENSO) rather than Indian Ocean Dipole (IOD) driven changes in precipitation, river discharge, and wind patterns. During the SWM, positive/negative chl-a anomalies coincided with high/low precipitation and river discharge during La Niña/El Niño. During the NEM, positive/negative chl-a anomaly coincided with high/low river discharge and strong/weak wind during La Niña/El Niño. Meanwhile, during NOM, positive chl-a anomaly could be attributed to anomalous high wind speed and precipitation during El Niño. [ABSTRACT FROM AUTHOR]

Published

2022

3. Ecosystem state change in the Arabian Sea fuelled by the recent loss of snow over the Himalayan-Tibetan Plateau region.

Author

Goes, Joaquim I., Tian, Hongzhen, Gomes, Helga do Rosario, Anderson, O. Roger, Al-Hashmi, Khalid, deRada, Sergio, Luo, Hao, Al-Kharusi, Lubna, Al-Azri, Adnan, and Martinson, Douglas G.

Subjects

*ECOSYSTEMS, *CLIMATE change, *SEAWATER, *ATMOSPHERIC models

Abstract

The recent trend of global warming has exerted a disproportionately strong influence on the Eurasian land surface, causing a steady decline in snow cover extent over the Himalayan-Tibetan Plateau region. Here we show that this loss of snow is undermining winter convective mixing and causing stratification of the upper layer of the Arabian Sea at a much faster rate than predicted by global climate models. Over the past four decades, the Arabian Sea has also experienced a profound loss of inorganic nitrate. In all probability, this is due to increased denitrification caused by the expansion of the permanent oxygen minimum zone and consequent changes in nutrient stoichiometries. These exceptional changes appear to be creating a niche particularly favorable to the mixotroph, Noctiluca scintillans which has recently replaced diatoms as the dominant winter, bloom forming organism. Although Noctiluca blooms are non-toxic, they can cause fish mortality by exacerbating oxygen deficiency and ammonification of seawater. As a consequence, their continued range expansion represents a significant and growing threat for regional fisheries and the welfare of coastal populations dependent on the Arabian Sea for sustenance. [ABSTRACT FROM AUTHOR]

Published

2020

4. Interannual changes in summer phytoplankton community composition in relation to water mass variability in the East China Sea.

Author

Xu, Qian, Sukigara, Chiho, Goes, Joaquim I., do Rosario Gomes, Helga, Zhu, Yuanli, Wang, Shengqiang, Shen, Anglu, de Raús Maúre, Elígio, Matsuno, Takeshi, Yuji, Watanabe, Yoo, Sinjae, and Ishizaka, Joji

Subjects

PHYTOPLANKTON, WATER masses, CYANOBACTERIA, PROCHLOROPHYTA

Abstract

The surface distribution of the phytoplankton community was investigated in July 2009, 2010, 2011, and 2013 on the mid-shelf of the East China Sea (ECS), which is under the influence of Changjiang River Diluted Water (CDW) and the Kuroshio Current. This study, based on a CHEMTAX analysis of phytoplankton pigments, revealed a predominance of cyanobacteria and prochlorophytes in the eastern ECS, which is perennially under the influence of oligotrophic Kuroshio Surface Water. Towards the west, on the mid-shelf of the ECS, the composition of the phytoplankton community varied from year to year. Diatoms dominated in 2009 and 2013, when dissolved inorganic phosphate (DIP) concentrations were higher than during 2010 and 2011. During the latter two years, characterized as high-nitrate years, a mixed population of cyanobacteria, chlorophytes, and other groups was observed. Cluster analysis based on the phytoplankton community composition together with a PCA of shipboard hydrographic and nutrient data for all four years helped to confirm that the summer phytoplankton community structure of the ECS was regulated by the mixing of water masses and the variability of nutrient ratios within the CDW as it moved offshore. Our results show that elevated DIP concentrations in the CDW favor the growth of diatoms and dinoflagellates. The primary pathway for DIP inputs appears to be the upwelling of high-phosphate subsurface waters along the coast of China. [ABSTRACT FROM AUTHOR]

Published

2019

5. An Ecosystem in Transition: The Emergence of Mixotrophy in the Arabian Sea.

Author

Goes, Joaquim I. and Gomes, Helga do R.

Published

2016

6. Massive outbreaks of Noctiluca scintillans blooms in the Arabian Sea due to spread of hypoxia.

Author

do Rosário Gomes, Helga, Goes, Joaquim I., Matondkar, S. G. P., Buskey, Edward J., Basu, Subhajit, Parab, Sushma, and Thoppil, Prasad

Published

2014