Showing total 3,412 results

1. Introduction to collection of papers on the response of the southern California Current Ecosystem to the Warm Anomaly and El Niño, 2014–16

Author

Ohman, Mark D

Subjects

El Nino, Warm Anomaly, Biological pump, Primary production, Mesozooplankton grazing, Carbon export, Ocean fronts, Geochemistry, Geology, Oceanography

Abstract

This contribution provides an introduction to a sequence of five papers (CCE I- CCE V) that describe the impact of the Warm Anomaly of 2014–15 and El Niño 2015–16 on the pelagic food web of the southern California Current Ecosystem. These contributions analyze the influence of these two warm water perturbations on satellite-based measures of ocean fronts, export efficiency out of the euphotic zone, copepod egg production, mesozooplankton community structure, and a synthesis of primary production, mesozooplankton grazing, and gravitational fluxes of organic carbon.

Published

2018

2. Introduction to collection of papers on the response of the southern California Current Ecosystem to the Warm Anomaly and El Niño, 2014–16

Author

Ohman, MD

Subjects

El Nino, Warm Anomaly, Biological pump, Primary production, Mesozooplankton grazing, Carbon export, Ocean fronts, Oceanography, Geochemistry, Geology

Abstract

This contribution provides an introduction to a sequence of five papers (CCE I- CCE V) that describe the impact of the Warm Anomaly of 2014–15 and El Niño 2015–16 on the pelagic food web of the southern California Current Ecosystem. These contributions analyze the influence of these two warm water perturbations on satellite-based measures of ocean fronts, export efficiency out of the euphotic zone, copepod egg production, mesozooplankton community structure, and a synthesis of primary production, mesozooplankton grazing, and gravitational fluxes of organic carbon.

Published

2018

3. Review Paper. Studying Climate Effects on Ecology through the Use of Climate Indices: The North Atlantic Oscillation, El Niño Southern Oscillation and Beyond

Author

Ottersen, Geir, Hurrell, James W., Mysterud, Atle, Lima, Mauricio, Chan, Kung-Sik, Yoccoz, Nigel G., and Ådlandsvik, Bjørn

Published

2003

4. PAPERS OF NOTE

Published

2010

5. Management of familial hypercholesterolemia in children and young adults: Consensus paper developed by a panel of lipidologists, cardiologists, paediatricians, nutritionists, gastroenterologists, general practitioners and a patient organization

Author

Inge Gies, K. De Waele, L. Van Gaal, F.R. Heller, Olivier S. Descamps, Etienne Sokal, Véronique Beauloye, P. Legat, Xavier Stéphenne, V. Blaton, A. Mangano, G. De Backer, Jean Ducobu, André Scheen, M-C Lebrethon, J.P. Panier, Michel Langlois, R. Rooman, Ernst Rietzschel, Sylvie Tenoutasse, Yvon Carpentier, C. de Beaufort, Erik Muls, Jean-Luc Balligand, Clinical sciences, Vriendenkring VUB, and Growth and Development

Subjects

Male, Pediatrics, Diagnostic criteria, Nutritional Sciences, Consensus Development Conferences as Topic, Saturated fat, General Practice, gastroenterology, LDL-receptor gene, Disease, Familial hypercholesterolemia, Family history, Young adult, Child, Apolipoprotein b, Children, Multidisciplinary, general & others [D99] [Human health sciences], general practice, Gastroenterology, Cardiovascular disease, Lipids, Cholesterol, young adult, Female, Cardiology and Cardiovascular Medicine, medicine.drug, Adult, Heterozygote, medicine.medical_specialty, Multidisciplinaire, généralités & autres [D99] [Sciences de la santé humaine], pediatrics, Decision Making, Cardiology, Guidelines as Topic, Plant sterols, decision making, Hyperlipoproteinemia Type II, lipids, Young Adult, Ezetimibe, Internal medicine, medicine, Humans, nutritional sciences, business.industry, Vascular disease, Statins, Stanols, medicine.disease, Endocrinology, El Niño, Human medicine, business, Fibrates, Treatment consensus paper

Abstract

Since heterozygous familial hypercholesterolemia (HeFH) is a disease that exposes the individual from birth onwards to severe hypercholesterolemia with the development of early cardiovascular disease, a clear consensus on the management of this disease in young patients is necessary. In Belgium, a panel of paediatricians, specialists in (adult) lipid management, general practitioners and representatives of the FH patient organization agreed on the following common recommendations.1.Screening for HeFH should be performed only in children older than 2 years when HeFH has been identified or is suspected (based on a genetic test or clinical criteria) in one parent.2.The diagnostic procedure includes, as a first step, the establishment of a clear diagnosis of HeFH in one of the parents. If this precondition is satisfied, a low-density-lipoprotein cholesterol (LDL-C) level above 3.5mmol/L (135mg/dL) in the suspected child is predictive for differentiating affected from non-affected children.3.A low saturated fat and low cholesterol diet should be started after 2 years, under the supervision of a dietician or nutritionist.4.The pharmacological treatment, using statins as first line drugs, should usually be started after 10 years if LDL-C levels remain above 5mmol/L (190mg/dL), or above 4mmol/L (160mg/dL) in the presence of a causative mutation, a family history of early cardiovascular disease or severe risk factors. The objective is to reduce LDL-C by at least 30% between 10 and 14 years and, thereafter, to reach LDL-C levels of less than 3.4mmol/L (130mg/dL).Conclusion: The aim of this consensus statement is to achieve more consistent management in the identification and treatment of children with HeFH in Belgium. © 2011 Elsevier Ireland Ltd.

Published

2011

6. Introduction to collection of papers on the response of the southern California Current Ecosystem to the Warm Anomaly and El Niño, 2014–16

Author

Mark D. Ohman

Subjects

0301 basic medicine, 010504 meteorology & atmospheric sciences, Biological pump, Aquatic Science, Oceanography, 01 natural sciences, 03 medical and health sciences, Carbon export, Ecosystem, Photic zone, 0105 earth and related environmental sciences, Total organic carbon, Warm Anomaly, Primary production, Mesozooplankton grazing, Anomaly (natural sciences), Community structure, Pelagic zone, Geology, Food web, 030104 developmental biology, Geochemistry, Environmental science, Ocean fronts, El Nino

Abstract

Author(s): Ohman, MD | Abstract: This contribution provides an introduction to a sequence of five papers (CCE I- CCE V) that describe the impact of the Warm Anomaly of 2014–15 and El Nino 2015–16 on the pelagic food web of the southern California Current Ecosystem. These contributions analyze the influence of these two warm water perturbations on satellite-based measures of ocean fronts, export efficiency out of the euphotic zone, copepod egg production, mesozooplankton community structure, and a synthesis of primary production, mesozooplankton grazing, and gravitational fluxes of organic carbon.

Published

2018

7. IGF-I and IGF-binding protein-3 measurements on filter paper blood spots in children and adolescents on GH treatment: use in monitoring and as markers of growth performance

Author

M S Kibirige, Leena Patel, J. Khosravi, Gary Butler, D. A. Price, Jerry Wales, Catherine M. Hall, Jenny Jones, A. Diamandi, U Das, Peter E. Clayton, and A. J. Whatmore

Subjects

Male, medicine.medical_specialty, Adolescent, Hormone Replacement Therapy, Endocrinology, Diabetes and Metabolism, Enzyme-Linked Immunosorbent Assay, Insulin-like growth factor-binding protein, Endocrinology, Internal medicine, Turner syndrome, Humans, Medicine, Insulin-Like Growth Factor I, Child, Growth Disorders, Filter paper, Spots, biology, Human Growth Hormone, business.industry, Mean value, Infant, General Medicine, medicine.disease, Body Height, Cross-Sectional Studies, Insulin-Like Growth Factor Binding Protein 3, El Niño, Child, Preschool, Gh treatment, biology.protein, Female, Binding protein 3, business

Abstract

BACKGROUND/AIM: In childhood an appropriate response to GH treatment is achieved by titration of growth response against dose administered, with careful observation for side-effects. In order to evaluate the potential use of IGF monitoring in children treated with GH, a cross-sectional study has been carried in 215 children and adolescents (134 with GH deficiency (GHD), 54 with Turner syndrome (TS) and 27 with non-GHD growth disorders) treated with GH for 0.2-13.7 years. METHODS: IGF-I and IGF-binding protein-3 (IGFBP-3) were measured in ELISAs, using dried capillary blood collected onto filter papers. Results were expressed as the mean S.D. range (SDS). Values of either analyte < -2 or > +2 SDS were considered abnormal. RESULTS: IGF-I and IGFBP-3 SDS were higher in the TS and non-GHD groups (mean +0.01 and +0.1 respectively) than in those with GHD (mean value -0.6). Nineteen per cent of the IGF-I values (13% low, 6% high) and 12% of IGFBP-3 values were abnormal (10% low, 2% high). Abnormalities, either low or high, were most common in the GHD group. There was a weak but significant relationship between change in height SDS over the Year up to the time of sampling in the whole group and IGF-I SDS. Satisfactory growth performance (+0.5>change in height SDS> -0.5) was found in those with high (7.2%), normal (60%) and low (9.3%) IGF-I levels. Overall, it was estimated that 26% of the tests would indicate that an adjustment to GH dose (up in 18% and down in 8%) could be considered. CONCLUSIONS: From this cross-sectional study of IGF monitoring across a broad range of diagnoses and ages, it can be concluded that the majority of children on GH have normal levels of IGF-I and IGFBP-3, but 26% of tests could suggest that a change of GH dose should be considered. Regular monitoring of IGF-I and IGFBP-3 should be considered in any child on GH treatment.

Published

2003

8. A Paper on the Tropical Intraseasonal Oscillation Published in 1963 in a Chinese Journal.

Author

Li, Tim, Wang, Lu, Wang, Bin, Peng, Melinda, Zhang, Chidong, Lau, William, and Kuo, Hung-Chi

Subjects

*RADIOSONDE observations of the upper atmosphere, *ATMOSPHERIC boundary layer, *HUMIDITY, *VERTICAL wind shear, *REYNOLDS stress, *WEATHER forecasting, EL Nino

Abstract

The Madden–Julian oscillation (MJO) identified by Madden and Julian in the early 1970s has been well recognized as the most prominent intraseasonal signal in the tropics. Its discovery and its relationship with other weather phenomena such as tropical cyclones (TCs) are among the most significant advancements in modern meteorology with broad and far-reaching impacts. The original study by Madden and Julian used radiosonde data on Canton Island, and their spectral analysis revealed the signal of a 40–50-day oscillation. It has come to our attention that an earlier study by Xie et al. published in a Chinese journal documented an oscillatory signal of a 45-day period using radiosonde data from several stations between 70° and 125°E in the tropics. The 40–50-day signal found by Xie et al. is strikingly evident without any filtering. Xie et al. identified that occurrences of TCs are correlated with the 40–50-day variation of low-level westerlies at these stations. The original figures in Xie et al.'s article were hand drawn. Their results are verified using data from a longer period of 1958–70. The 40–50-day oscillation in the monsoon westerlies and its relationship with the occurrence of TCs are confirmed and further expanded upon. This study serves the purpose of bringing recognition to the community of the identification of a 40–50-day signal published in Chinese in 1963 and the discovery of the correlation between MJO phases and TC genesis three decades earlier than studies on this subject published outside China. [ABSTRACT FROM AUTHOR]

Published

2018

9. Filter paper cortisol profiles in secondary adrenocortical insufficiency

Author

K. Poyser, J. S. Sieratzki, J. Beaman, C. Gompels, and D. C. L. Savage

Subjects

Male, Paper, Anterior hypopituitarism, endocrine system, medicine.medical_specialty, Adolescent, Hydrocortisone, medicine.medical_treatment, Hypopituitarism, Internal medicine, Secondary adrenocortical insufficiency, Adrenal insufficiency, Humans, Medicine, Child, Growth Disorders, Morning, Blood Specimen Collection, business.industry, Infant, medicine.disease, Self Care, Steroid hormone, Endocrinology, El Niño, Child, Preschool, Growth Hormone, Pediatrics, Perinatology and Child Health, Female, business, hormones, hormone substitutes, and hormone antagonists, Research Article, Adrenal Insufficiency, medicine.drug

Abstract

The use of filter paper four point 24 hour cortisol profiles in the diagnosis and management of secondary adrenocortical deficiency was examined. Eighteen children with familial short stature and isolated growth hormone deficiency had normal 24 hour and morning plasma cortisol concentrations measured. Eight of 11 children with multiple pituitary hormone deficiencies had evidence of hypocorticalism despite previously normal baseline cortisols or responses to insulin hypoglycaemia or tetracosactrin. Nine of 11 children with hypopituitarism on replacement treatment (4.9-12.5 mg/m2/day) had satisfactory concentrations of cortisol, though morning cortisols were often low. Filter paper profiles are a simple, inexpensive, and relatively non-invasive way of managing children with suspected hypocorticalism and of monitoring their treatment.

Published

1995

10. American Society of Pediatric Nephrology position paper on linking reimbursement to quality of care

Author

Barbara A. Fivush, Jennifer Shevchek, John W. Foreman, Neil R. Powe, Sharon Andreoli, Sandra L. Watkins, and Eileen D. Brewer

Subjects

Nephrology, Quality Control, medicine.medical_specialty, urologic and male genital diseases, Pediatrics, Reimbursement Mechanisms, Internal medicine, Research Support as Topic, Fee Schedules, Outcome Assessment, Health Care, Medicine, Pediatric nephrology, Humans, Quality of care, Intensive care medicine, Child, Reimbursement, Societies, Medical, Quality of Health Care, Health Services Needs and Demand, Evidence-Based Medicine, business.industry, Public health, General Medicine, medicine.disease, female genital diseases and pregnancy complications, United States, Treatment Outcome, El Niño, Position paper, Kidney Failure, Chronic, Health Services Research, business, Kidney disease

Abstract

The pediatric ESRD patient is a member of a unique subpopulation of ESRD patients. The cause of ESRD in the pediatric patient differs markedly from the adult patient; treatment modality in the pediatric ESRD patient differs substantially from the adult patient; and outcomes such as growth

Published

2005

11. The effects of 2015 El Nino on smallholder maize production in the transitional ecological zone of Ghana

Author

Owusu, Kwadwo, Emmanuel, Ayisi Kofi, Musah-Surugu, Issah Justice, and Yankson, Paul William Kojo

Published

2019

12. Revealing Spatial–Temporal Patterns of Sea Surface Temperature in the South China Sea Based on Spatial–Temporal Co-Clustering.

Author

He, Qi, Xu, Zhuangzhuang, Song, Wei, Geng, Lijia, Huang, Dongmei, and Du, Yanling

Subjects

EL Nino

Abstract

To discover the spatial–temporal patterns of sea surface temperature (SST) in the South China Sea (SCS), this paper proposes a spatial–temporal co-clustering algorithm optimized by information divergence. This method allows for the clustering of SST data simultaneously across temporal and spatial dimensions and is adaptable to large volumes of data and anomalous data situations. First, the SST data are initially clustered using the co-clustering algorithm. Second, we use information divergence as the loss function to refine the clustering results iteratively. During the iterative optimization of spatial clustering results, we treat the temporal dimension as a constraint; similarly, during the iterative optimization of temporal clustering, we treat the spatial dimension as a constraint. This is to ensure better robustness of the algorithm. Finally, this paper conducts experiments in the SCS to verify our algorithm. According to the analysis of the experimental results, we have drawn the following conclusions. First, the use of the spatial–temporal co-clustering algorithm reveals that the SST in the SCS exhibits strong seasonal patterns in the temporal clustering results. The spatial distribution of SST varies significantly in different seasons. There is a slight difference in SST between the northern and southern regions of the SCS in winter, but the largest difference is in summer. Second, during ocean anomalies, our proposed algorithm can identify the corresponding abnormal patterns. When ENSO occurs, the seasonal distribution pattern of SST in the SCS is destroyed and replaced by an abnormal temporal pattern. The results indicate that during ENSO events, the SST in specific months in the SCS exhibits a correlation with the SST observed 4–5 months afterward. [ABSTRACT FROM AUTHOR]

Published

2024

13. Climatic and anthropogenic impacts on the variability of water resources : programme, papers, list of participants = Impacts climatiques et anthropiques sur la variabilité des ressources en eau : programme, communications, liste des participants

Author

Janicot, Serge and Mahé, Gil (ed.)

Subjects

VARIATION INTERANNUELLE, TEMPERATURE DE SURFACE, VARIATION SAISONNIERE, PLUIE, ZONE DE CONVERGENCE INTERTROPICALE, CHANGEMENT CLIMATIQUE, INTERACTION OCEAN ATMOSPHERE, MOUSSON D'ETE, EL NINO, MOUSSON D'HIVER

Published

2007

14. The sampling method for optimal precursors of El Niño–Southern Oscillation events.

Author

Shi, Bin and Ma, Junjie

Subjects

EL Nino, STATISTICAL learning, SAMPLING methods, MACHINE learning, PARALLEL algorithms, SOIL sampling

Abstract

The El Niño–Southern Oscillation (ENSO) is a significant climate phenomenon that appears periodically in the tropical Pacific. The intermediate coupled ocean–atmosphere Zebiak–Cane (ZC) model is the first and classical one designed to numerically forecast the ENSO events. Traditionally, the conditional nonlinear optimal perturbation (CNOP) approach has been used to capture optimal precursors in practice. In this paper, based on state-of-the-art statistical machine learning techniques Generally, the statistical machine learning techniques refer to the marriage of traditional optimization methods and statistical methods, or, say, stochastic optimization methods, where the iterative behavior is governed by the distribution instead of the point due to the attention of noise. Here, the sampling algorithm used in this paper is to numerically implement the stochastic gradient descent method, which takes the sample average to obtain the inaccurate gradient. , we investigate the sampling algorithm proposed in to obtain optimal precursors via the CNOP approach in the ZC model. For the ZC model, or more generally, the numerical models with a large number O(104-105) of degrees of freedom, the numerical performance, regardless of the statically spatial patterns and the dynamical nonlinear time evolution behaviors as well as the corresponding quantities and indices, shows the high efficiency of the sampling method compared to the traditional adjoint method. The sampling algorithm does not only reduce the gradient (first-order information) to the objective function value (zeroth-order information) but also avoids the use of the adjoint model, which is hard to develop in the coupled ocean–atmosphere models and the parameterization models. In addition, based on the key characteristic that the samples are independently and identically distributed, we can implement the sampling algorithm by parallel computation to shorten the computation time. Meanwhile, we also show in the numerical experiments that the important features of optimal precursors can still be captured even when the number of samples is reduced sharply. [ABSTRACT FROM AUTHOR]

Published

2024

15. Interannual variability of the atmospheric CO2 growth rate: relative contribution from precipitation and temperature.

Author

Wang, J., Zeng, N., and Wang, M. R.

Subjects

ATMOSPHERIC carbon dioxide, METEOROLOGICAL precipitation, ATMOSPHERIC temperature, SOIL moisture, EL Nino

Abstract

The interannual variability (IAV) in atmospheric CO2 growth rate (CGR) is closely connected with the El Niño-Southern Oscillation. However, sensitivities of CGR to temperature and precipitation remain largely uncertain. This paper analyzed the relationship between Mauna Loa CGR and tropical land climatic elements. We find that Mauna Loa CGR lags precipitation by 4 months with a correlation coefficient of -0.63, leads temperature by 1 month (0.77), and correlates with soil moisture (-0.65) with zero lag. Additionally, precipitation and temperature are highly correlated (-0.66), with precipitation leading by 4-5 months. Regression analysis shows that sensitivities of Mauna Loa CGR to temperature and precipitation are 2.92 ± 0.20 Pg C yr-1 K-1 and -0.46 ± 0.07 Pg C yr-1 100 mm-1, respectively. Unlike some recent suggestions, these empirical relationships favor neither temperature nor precipitation as the dominant factor of CGR IAV. We further analyzed seven terrestrial carbon cycle models, from the TRENDY project, to study the processes underlying CGR IAV. All models capture well the IAV of tropical land-atmosphere carbon flux (CFTA). Sensitivities of the ensemble mean CFTA to temperature and precipitation are 3.18 ± 0.11 Pg C yr-1 K-1 and -0.67 ± 0.04 Pg C yr-1 100 mm-1, close to Mauna Loa CGR. Importantly, the models consistently show the variability in net primary productivity (NPP) dominates CGR, rather than soil respiration. Because NPP is largely driven by precipitation, this suggests a key role of precipitation in CGR IAV despite the higher CGR correlation with temperature. Understanding the relative contribution of CO2 sensitivity to precipitation and temperature has important implications for future carbon-climate feedback using such "emergent constraint". [ABSTRACT FROM AUTHOR]

Published

2015

16. Spatial and Temporal Characteristics and Mechanisms of Marine Heatwaves in the Changjiang River Estuary and Its Surrounding Coastal Regions.

Author

Xie, Minghong, Ji, Qiyan, Zheng, Qingdan, Meng, Ziyin, Wang, Yuting, and Gao, Meiling

Subjects

MARINE heatwaves, ESTUARIES, EL Nino, HEAT flux, OCEAN temperature, WIND speed, ECOSYSTEMS, MARINE ecology

Abstract

Marine heatwave (MHW) events have significant consequences for marine ecosystems and human society. This paper investigates a MHW's spatial–temporal characteristics in the Changjiang River Estuary and its surrounding coastal regions (CRESs), as well as analyzes the drivers, using satellite and reanalysis data spanning from 1982–2021. The findings show that, during the last 40 years, all four of the MHW indicators have increased. The summer MHW is more severe than other seasons, showing a rising pattern from southeast to northwest. The rise of MHWs can be attributed to the increase in sea surface heat flux, weak wind speed, and powerful El Niño events. Additionally, two special MHW events were detected during the entire study period: Event A lasted for 191 days from 9 October 2006 to 17 April 2007; Event B had an average intensity of 4.93 °C from 5 July 1994 to 1 August 1994. For locations so close to each other, the characteristics of MHWs can also vary, and the mechanisms behind them are highly complex. [ABSTRACT FROM AUTHOR]

Published

2024

17. El Niño's Effects on Southern African Agriculture in 2023/24 and Anticipatory Action Strategies to Reduce the Impacts in Zimbabwe.

Author

Mugiyo, Hillary, Magadzire, Tamuka, Choruma, Dennis Junior, Chimonyo, Vimbayi Grace Petrova, Manzou, Rebecca, Jiri, Obert, and Mabhaudhi, Tafadzwa

Subjects

EL Nino, DROUGHTS, CULTIVARS, AGRICULTURE, FIRE prevention, WEATHER

Abstract

The frequency of El Niño occurrences in southern Africa surpasses the norm, resulting in erratic weather patterns that significantly impact food security, particularly in Zimbabwe. The effects of these weather patterns posit that El Niño occurrences have contributed to the diminished maize yields. The objective is to give guidelines to policymakers, researchers, and agricultural stakeholders for taking proactive actions to address the immediate and lasting impacts of El Niño and enhance the resilience of the agricultural industry. This brief paper provides prospective strategies for farmers to anticipate and counteract the El Niño-influenced dry season projected for 2023/24 and beyond. The coefficient of determination R2 between yield and ENSO was low; 11 of the 13 El Niño seasons had a negative detrended yield anomaly, indicating the strong association between El Nino's effects and the reduced maize yields in Zimbabwe. The R2 between the Oceanic Nino Index (ONI) and rainfall (43%) and between rainfall and yield (39%) indirectly affects the association between ONI and yield. To safeguard farmers' livelihoods and improve their preparedness for droughts in future agricultural seasons, this paper proposes a set of strategic, tactical, and operational decision-making guidelines that the agriculture industry should follow. The importance of equipping farmers with weather and climate information and guidance on drought and heat stress was underscored, encompassing strategies such as planting resilient crop varieties, choosing resilient livestock, and implementing adequate fire safety measures. [ABSTRACT FROM AUTHOR]

Published

2023

18. Editorial.

Author

Takeshi Horinouchi and Masaru Inatsu

Subjects

TYPHOONS, METEOROLOGICAL research, EXTREME weather, ATMOSPHERIC sciences, EL Nino, ATMOSPHERIC models

Abstract

The Journal of the Meteorological Society of Japan (JMSJ) is a well-established journal in the field of meteorology and related sciences. The editorial board is committed to continuously improving the journal for authors, readers, and reviewers. In 2024, the JMSJ will publish its 102nd volume and will discontinue the note service for submissions. The journal has recently implemented minor reforms in the technical editing process. The JMSJ Award for 2023 was presented to authors who conducted novel research on important topics. The most accessed papers in 2023 included topics such as geostationary meteorological satellites and reanalysis data. The journal also organized three special editions on various topics. JMSJ authors are encouraged to use J- STAGE Data for archiving datasets related to their papers. The journal expresses gratitude to the meteorological research community for their support and looks forward to continued success in 2024. [Extracted from the article]

Published

2024

19. UQAM‐TCW: A Global Hybrid Tropical Cyclone Wind Model Based Upon Statistical and Coupled Climate Models.

Author

Carozza, David A., Boudreault, Mathieu, Grenier, Manuel, and Caron, Louis‐Philippe

Subjects

TROPICAL cyclones, ATMOSPHERIC models, CLIMATE change models, EL Nino, FINANCIAL risk management, STORMS

Abstract

Tropical cyclones (TCs) are among the most destructive natural hazards and yet, quantifying their financial impacts remains a significant methodological challenge. It is therefore of high societal value to synthetically simulate TC tracks and winds to assess potential impacts along with their probability distributions for example, land use planning and financial risk management. A common approach to generate TC tracks is to apply storm detection methodologies to climate model output, but such an approach is sensitive to the method and parameterization used and tends to underestimate intense TCs. We present a global TC model (the UQAM‐TCW model thereafter) that melds statistical modeling, to capture historical risk features, with a climate model large ensemble, to generate large samples of physically coherent TC seasons. Integrating statistical and physical methods, the model is probabilistic and consistent with the physics of how TCs develop. The model includes frequency and location of cyclogenesis, full trajectories with maximum sustained winds and the entire wind structure along each track for the six typical cyclogenesis basins from IBTrACS. Being an important driver of TCs globally, we also integrate ENSO effects in key components of the model. The global TC model thus belongs to a recent strand of literature that combines probabilistic and physical approaches to TC track generation. As an application of the model, we show global hazard maps for direct and indirect hits expressed in terms of return periods. The global TC model can be of interest to climate and environmental scientists, economists and financial risk managers. Plain Language Summary: Tropical cyclones (TCs) are among the most destructive natural hazards and yet, quantifying their financial impacts remains a difficult task. Being able to randomly simulate TCs and their features (such as wind speed) with mathematical models is therefore critical to build scenarios (and their corresponding probability) for land use planning and financial risk management. A common approach is to simulate TCs by tracking them directly in climate model outputs but this often underestimates the frequency of intense TCs while being computationally costly overall to generate a large number of events. For these reasons, many authors have looked into alternative approaches that replicate key physical features of TCs but rather using statistical models that are much less computationally demanding. This paper therefore presents a global TC model that leverages the strengths of both statistical and climate models to simulate a large number of TCs whose features are consistent with the physics and observations. As an important global phenomenon that affects TCs globally, we also integrate in our model the effects of El Niño. The paper focuses on the methodology and validation of each model component and concludes with global hazard maps for direct and indirect hits. Key Points: We present a global tropical cyclone (TC) wind model built upon a climate model large ensemble that can be used for risk analysisWe integrate ENSO into our model since it is a strong driver of storm annual frequency, cyclogenesis, trajectories, and intensityWe present global hazard maps consistent with statistical features of TC components and coherent with a global climate model [ABSTRACT FROM AUTHOR]

Published

2024

20. Prehispanic Arid Zone Farming: Hybrid Flood and Irrigation Systems along the North Coast of Peru.

Author

Caramanica, Ari

Subjects

DRY farming, ARID regions, SUSTAINABLE agriculture, EL Nino, HYBRID zones, EXTREME environments, POTASSIUM, RAINFALL

Abstract

As arid lands expand across the globe, scholars increasingly turn to the archaeological record for examples of sustainable farming in extreme environments. The arid north coast of Peru was the setting of early and intensive irrigation-based farming; it is also periodically impacted by sudden, heavy rainfall related to the El Niño Southern Oscillation (ENSO) phenomenon. While the sociopolitical effects, technologies, and engineering expertise of these irrigation systems have been thoroughly examined and theorized, little is known about how farmers managed periods of water stress. The aim of this study is to test whether arid zone farming was supported by hybrid, intermittent flood and perennial water source systems in the prehispanic past. An arroyo in the Chicama Valley was selected for preliminary data collection, and these data are presented here: (1) drone photography of the arroyo capturing the aftermath of a recent (2023) rain event; and (2) potassium (K) soil test kit results from samples collected near suspected prehispanic check dam features in the same area. The paper combines these data with comparative examples from the literature to suggest that the prehispanic features functioned as water-harvesting infrastructure. The paper concludes that sustainable, arid zone farming can be supported by hybrid, intermittent flood and perennial water source systems. [ABSTRACT FROM AUTHOR]

Published

2024

21. Decadal-scale relationship between measurements of aerosols, land-use change, and fire over Southeast Asia.

Author

Cohen, J. B. and Lecoeur, E.

Subjects

AEROSOLS & the environment, LAND use, FIRES, LAND cover, METEOROLOGICAL precipitation, ANTHROPOGENIC effects on nature, MONSOONS, EL Nino

Abstract

A simultaneous analysis of 13 years of remotely sensed data of land cover, fires, precipitation, and aerosols from the MODIS, TRMM, and MISR satellites and the AERONET network over Southeast Asia is performed, leading to a set of robust relationships be- tween land-use change and fire being found on inter-annual and intra-annual scales over Southeast Asia, reflecting the heavy amounts of anthropogenic influence over land use change and fires in this region of the world. First, we find that fires occur annually, but with a considerable amount of variance in their onset, duration, and intensity from year to year, and from two separate regions within Southeast Asia from each other. This variability is already partially understood from previous works, including the impacts of both inter-annually and intra-annually occurring influences such as the Monsoon and El-Nino events, but yet there are other as of yet unknown influences that also are found to strongly influence the results. Second, we show that a simple regression-model of the land-cover, fire, and precipitation data can be used to recreate a robust representation of the timing and magnitude of measured AOD from multiple measurements sources of this region using either 8-day (better for onset and duration) or monthly based (better for magnitude) measurements, but not daily measurements. We find that the reconstructed AOD matches the timing and intensity from AERONET measurements to within 70 to 90% and the timing and intensity of MISR measurements from to within 50 to 95%. This is a unique finding in this part of the world, since could-covered regions are large, yet the robustness of the model is still capable of holding over many of these regions, where otherwise no fires are observed and hence no emissions source contribution to AOD would otherwise be thought to occur. Third, we determine that while Southeast Asia is a source region of such intense smoke emissions, that it is also impacted by transport of smoke from other regions as well. There are regions in northern Southeast Asia which have two annual AOD peaks, one during the local fire season, and the second smaller peak corresponding to a combination of some local smoke sources as well as transport of aerosols from fires in southern Southeast Asia, and possibly even from anthropogenic sources in South Asia. Conversely, we show that southern Southeast Asia is affected exclusively by its own local fire sources during its own local fire season. Overall, this study highlights the importance of taking into account a simultaneous use of land-use, fire, and precipitation for understanding the impacts of fires on the atmospheric loading and distribution of aerosols in Southeast Asia over both space and time. [ABSTRACT FROM AUTHOR]

Published

2015

22. Towards improved seasonal rainfall prediction in the tropical Pacific Islands

Author

Tigona, Robson, Ongoma, Victor, and Weir, Tony

Published

2023

23. Effects of climate variability on Savannah fire regimes in West Africa.

Author

N'Datchoh, E. T., Konaré, A., Diedhiou, A., and Assamoi, P.

Subjects

WILDFIRES, CLIMATE research, SOUTHERN oscillation, EL Nino

Abstract

The article presents a study which investigated climate variability's effects on savannah fires in West Africa. It highlights the use of multivariate El Niño southern oscillation (ENSO) index (MEI) in the analysis of ENSO's effect on burned areas. It mentions that temporal and spatial variability showed a large burned area activity from November to February 2000-2007.

Published

2012

24. Unveiling the global influence of tropical cyclones on extreme waves approaching coastal areas.

Author

Jullien, Swen, Aucan, Jérôme, Kestenare, Elodie, Lengaigne, Matthieu, and Menkes, Christophe

Subjects

ROGUE waves, EL Nino, TROPICAL storms, LA Nina, WIND pressure, TROPICAL cyclones

Abstract

Tropical and extra-tropical storms generate extreme waves, impacting both nearby and remote regions through swell propagation. Despite their devastating effects in tropical areas, the contribution of tropical cyclones (TCs) to global wave-induced coastal risk remains unknown. Here, we enable a quantitative assessment of TC's role in extreme waves approaching global coastlines, by designing twin oceanic wave simulations with and without realistic TC wind forcing. We find that TCs substantially contribute to extreme breaking heights in tropical regions (35-50% on average), reaching 100% in high-density TC areas like the North Pacific. TCs also impact remote TC-free regions, such as the equatorial Pacific experiencing in average 30% of its extreme wave events due to TCs. Interannual variability amplifies TC-induced wave hazards, notably during El Niño in the Central Pacific, and La Niña in the South China Sea, Caribbean Arc, and South Indian Ocean coastlines. This research offers critical insights for global risk management and preparedness. This paper shows that tropical cyclones contribute between 40% and 100% of the extreme wave events approaching coastlines in basins prone to tropical cyclone activity, while they can also impact remote areas via swell propagation across the ocean. [ABSTRACT FROM AUTHOR]

Published

2024

25. Deep ocean warming-induced El Niño changes.

Author

Kim, Geon-Il, Oh, Ji-Hoon, Shin, Na-Yeon, An, Soon-Il, Yeh, Sang-Wook, Shin, Jongsoo, and Kug, Jong-Seong

Subjects

EL Nino, INTERTROPICAL convergence zone, SURFACE of the earth, OCEAN

Abstract

The deep ocean, a vast thermal reservoir, absorbs excess heat under greenhouse warming, which ultimately regulates the Earth's surface climate. Even if CO2 emissions are successfully reduced, the stored heat will gradually be released, resulting in a particular pattern of ocean warming. Here, we show that deep ocean warming will lead to El Niño-like ocean warming and resultant increased precipitation in the tropical eastern Pacific with southward shift of the intertropical convergence zone. Consequently, the El Niño-Southern Oscillation shifts eastward, intensifying Eastern Pacific El Niño events. In particular, the deep ocean warming could increase convective extreme El Niño events by 40 to 80% relative to the current climate. Our findings suggest that anthropogenic greenhouse warming will have a prolonged impact on El Niño variability through delayed deep ocean warming, even if CO2 stabilization is achieved. This paper shows that anthropogenic greenhouse warming will have a prolonged impact on El Niño variability through delayed deep ocean warming, even if CO2 stabilization is achieved. [ABSTRACT FROM AUTHOR]

Published

2024

26. On the need to integrate interannual natural variability into coastal multihazard assessments.

Author

Odériz, I., Losada, I. J., Silva, R., and Mori, N.

Subjects

ANTARCTIC oscillation, EL Nino, ARCTIC oscillation, MODES of variability (Climatology), OCEAN wave power, HAZARD mitigation

Abstract

The co-occurrence of multiple hazards can either exacerbate or mitigate risks. The interrelationships between multiple hazards greatly depend on the spatiotemporal scale and can be difficult to detect from large to local scales. In this paper, we identified coastal regions worldwide where the leading tropical (El Niño-Southern Oscillation, ENSO) and polar (Arctic Oscillation, AO; Southern Annular Mode, SAM) modes of climate variability simultaneously modify the seasonal conditions of multiple hazards, including the near-surface wind speed and swell and wind-sea wave powers. We classified the results at the national and municipal levels, with a focus on multiple hazards simultaneously occurring in space and time. The results revealed that the ENSO modulates multiple hazards, affecting approximately 40% of coastal countries, while the polar annular modes affect approximately 30% of coastal countries. The ENSO induced a greater diversity of multiple hazards, with Asian countries (e.g., Indonesia experienced increases of + 2% in wind and + 7% in swell) and countries in the Americas (e.g., Peru exhibited increases of + 1.5% in wind and + 6% in wind-sea) the most notably affected. The SAM imposed a greater influence on swells in the eastern countries of ocean basins (+ 2.5% in Chile) than in other countries, while the influence of the AO was greater in Norway and the UK (+ 12% for wind-sea and 8% for swell). Low-lying islands exhibited notable variations in pairwise hazards between phases and seasons. Our results could facilitate the interpretation of multihazard interactions and pave the way for a wide range of potential implementations of different coastal industries. [ABSTRACT FROM AUTHOR]

Published

2024

27. Perceptions of El Niño-Southern Oscillation (ENSO) and La Niña Shape Fishers' Adaptive Capacity and Resilience.

Author

Pollnac, Richard, Beitl, Christine M., Vina, Michael A., and Gaibor, Nikita

Subjects

OCEAN temperature, CLIMATE change adaptation, SCIENTIFIC communication, EL Nino, CLIMATE change

Abstract

Much research has raised concerns about how a warming planet will interact with natural cyclical climatic variations, and the implications for the resilience and vulnerability of coastal communities. As the anticipated effects of climate change will continue to intensify, it is necessary to understand the response and adaptive capacity of individuals and communities. Coastal communities in Ecuador have evolved in an environment of such cyclical climatic variations referred to as El Niño-Southern Oscillation (ENSO) and La Niña. These climatic events are frequently characterized by extreme variations in precipitation, violent storms, and coastal flooding during El Niño and lowered sea water temperatures and drought during La Niña. This paper draws on survey data and long-term ethnographic research in Ecuadorian coastal communities to explore how fishers understand the impacts of ENSO and implications for their livelihood decisions and resilience to climate variability. The results suggest that fishers along the coast of Ecuador understand and respond differentially to the impacts of ENSO depending on social, cultural, environmental, and geographical factors. These differential levels of response suggest that livelihood diversification may uphold social resilience, which has implications for how coastal communities may adapt to the increasingly harsh weather conditions predicted by many climate models. Our findings further suggest that the impacts of El Niño are more salient than the impacts of La Niña; these findings have significant implications for fisheries management and science communication. [ABSTRACT FROM AUTHOR]

Published

2024

28. Characterization of Multi-Decadal Beach Changes in Cartagena Bay (Valparaíso, Chile) from Satellite Imagery.

Author

Briceño de Urbaneja, Idania C., Pardo-Pascual, Josep E., Cabezas-Rabadán, Carlos, Aguirre, Catalina, Martínez, Carolina, Pérez-Martínez, Waldo, and Palomar-Vázquez, Jesús

Subjects

REMOTE-sensing images, SHORELINES, BEACHES, BEACH erosion, EL Nino, SOUTHERN oscillation, LANDSAT satellites, COASTAL sediments

Abstract

Sandy coastlines are very dynamic spaces affected by a variety of natural and human factors. In Central Chile, changes in oceanographic and wave conditions, modes of inter-annual climate variability such as El Niño Southern Oscillation (ENSO), and extreme events such as earthquakes and tsunamis condition the beach morphology. At the same time, direct human actions alter the arrival of sediments to the coast and their alongshore distribution. Despite the relevance of the beaches for this coastal region and the interesting relationship their morphology has with the aforementioned factors, there is a lack of robust morphological datasets to provide a deep characterization and understanding of the dynamism of the Chilean coast. Based on the information provided by satellite-derived shorelines (SDSs) defined by using the SHOREX algorithm, this paper characterizes the morphological changes of Playa Grande in Cartagena Bay (Central Chile) during the period 1985–2019. The shoreline position data are analyzed in the context of changing beach transforming elements, allowing for a better understanding of the changes according to multiple drivers. While some of these factors, such as earthquakes or coastal storms, have a punctual character, changes in wave patterns vary at different time scales, from seasonal to multi-annual, linked to climate phases such as ENSO. Its effects are translated into shoreline erosion and accretion conditioned by the morphology and orientation of the coast while influenced by the availability of sediment in the coastal system. According to that, a conceptual model of the dynamism and redistribution of sediment in the Bay of Cartagena is proposed. The work proves the high utility that the systematic analysis of multi-decadal SDS datasets obtained from the images acquired in the optical by the Landsat and Sentinel-2 offer for beach monitoring and understanding the coastal dynamism. [ABSTRACT FROM AUTHOR]

Published

2024

29. A Systematic Review of Oceanic-Atmospheric Variations and Coastal Erosion in Continental Latin America: Historical Trends, Future Projections, and Management Challenges.

Author

Vallarino-Castillo, Ruby, Negro-Valdecantos, Vicente, and del Campo, José María

Subjects

BEACH erosion, EL Nino, LA Nina, COASTS, STORM surges, EROSION, BEACHES

Abstract

The intricate interplay of oceanic-atmospheric variations has intensified erosive processes on sandy beaches in recent decades, with climate change expected to exacerbate these impacts in the future. Projections for the southern Atlantic and Pacific regions of continental Latin America predict increased extreme events and heightened impacts on sandy beaches, highlighting disparities in studies addressing coastal erosion and its causes. To address these risks, a systematic review is proposed to analyze historical trends and projections, aiming to inform local-level studies and management strategies for at-risk coastal communities. Reviewing 130 research papers, insights reveal the influence of climatic events like El Niño and La Niña on coastal dynamics, as well as the effects of storm intensification and extreme events such as high-intensity waves and storm surges on Latin American coasts, resulting in ecosystem, economic, and infrastructure losses. Projections indicate a rise in the population inhabiting Low Elevation Coastal Zones (LECZ) by the century's end, emphasizing the urgent need for effective management and planning. Community engagement in erosion monitoring and adaptation programs is crucial for addressing these challenges and developing robust, sustainable, long-term adaptation strategies. This study aims to enhance the understanding of coastal erosion in Latin American communities addressing future coastal risks. [ABSTRACT FROM AUTHOR]

Published

2024

30. Maximum likelihood inference for a class of discrete-time Markov switching time series models with multiple delays.

Author

Martínez-Ordoñez, José. A., López-Santiago, Javier, and Miguez, Joaquín

Subjects

TIME series analysis, MAXIMUM likelihood detection, EL Nino, DELAY differential equations, STOCHASTIC differential equations, MAXIMUM likelihood statistics, NONLINEAR dynamical systems, STOCHASTIC systems, PARAMETER estimation

Abstract

Autoregressive Markov switching (ARMS) time series models are used to represent real-world signals whose dynamics may change over time. They have found application in many areas of the natural and social sciences, as well as in engineering. In general, inference in this kind of systems involves two problems: (a) detecting the number of distinct dynamical models that the signal may adopt and (b) estimating any unknown parameters in these models. In this paper, we introduce a new class of nonlinear ARMS time series models with delays that includes, among others, many systems resulting from the discretisation of stochastic delay differential equations (DDEs). Remarkably, this class includes cases in which the discretisation time grid is not necessarily aligned with the delays of the DDE, resulting in discrete-time ARMS models with real (non-integer) delays. The incorporation of real, possibly long, delays is a key departure compared to typical ARMS models in the literature. We describe methods for the maximum likelihood detection of the number of dynamical modes and the estimation of unknown parameters (including the possibly non-integer delays) and illustrate their application with a nonlinear ARMS model of El Niño–southern oscillation (ENSO) phenomenon. [ABSTRACT FROM AUTHOR]

Published

2024

31. Is there more to eels than slime? An introduction to papers presented at the ICES Theme Session in September 2006.

Author

Dekker, Willem, Pawson, Mike, and Wickström, Håkan

Subjects

*EELS, *FISH populations, EL Nino

Abstract

The article discusses several papers presented in the October 2007 issue of the "ICES Journal of Marine Science," including one about modeling the status of eel populations and another on the effects of El Nino on the eel.

Published

2007

32. Editorial: Impact of solar activities on weather and climate.

Author

Xiao, Ziniu, Zhao, Liang, Zhou, Limin, Huo, Wenjuan, Mironova, Irina, and Miyahara, Hiroko

Subjects

SOLAR activity, TROPICAL cyclones, SOLAR energetic particles, ATLANTIC meridional overturning circulation, WEATHER, EL Nino

Abstract

This article, titled "Editorial: Impact of solar activities on weather and climate," explores the relationship between solar activities and weather and climate patterns on Earth. It discusses various ways in which solar activities can affect atmospheric conditions, such as temperature, precipitation, tropical cyclones, and ocean circulation. The article includes several research papers that investigate the link between solar activity and surface climate variability, TC genesis frequency, the North Atlantic Oscillation, El Niño-Southern Oscillation, and the Atlantic meridional overturning circulation. It also examines the influence of solar forcing on the South Asian jet, high-altitude clouds, and energy transmission in the climate system. The article acknowledges the challenges and questions in studying the impact of the Sun on Earth's atmosphere and climate. [Extracted from the article]

Published

2024

33. Spatiotemporal Characteristics of Watershed Warming and Wetting: The Response to Atmospheric Circulation in Arid Areas of Northwest China.

Author

Li, Taohui, Lv, Aifeng, Zhang, Wenxiang, and Liu, Yonghao

Subjects

EL Nino, ARID regions, NORTH Atlantic oscillation, CLIMATE change, ARCTIC oscillation, ATMOSPHERIC circulation

Abstract

The Tarim Basin is a large inland arid basin in the arid region of northwest China and has been experiencing significant "warming and wetting" since 1987. As a result, the purpose of this paper is to determine whether the climate transition phenomenon occurred in the Tarim Basin as well as the role of atmospheric circulation in this process. We use meteorological data and atmospheric circulation indexes to study the seasonal trends of climate change in this region from 1987 to 2020 to understand how they are affected by atmospheric circulation. The findings show that, from 1987 to 2020, the Tarim Basin experienced significant warming and wetting; with the exception of the winter scale, all other seasonal scales exhibited a clear warming and wetting trend. From the perspective of spatial distribution, most of the areas showed a significant warming trend, and the warming amplitude around the basin is greater than that in the central area of the basin. However, there are significant regional differences in precipitation change rates. Meanwhile, wavelet analysis shows that there is a significant oscillation period of 17–20 years between climate change and the atmospheric circulation index during 1987–2020. The correlation analysis shows that the Pacific decadal oscillation (PDO) and El Niño-Southern Oscillation (ENSO) are the main influencing factors of climate change in the Tarim Basin at different seasonal scales, while the teleconnection of the Arctic Oscillation (AO) and North Atlantic Oscillation (NAO) is low and the PDO dominates the summer and autumn temperature changes in the Tarim Basin. The research results of this paper show that, despite the warming and wetting trends since 1987 in the Tarim Basin, the climate type did not change. From 1987 to 2020, the main teleconnection factors of climate change in the Tarim Basin were PDO and ENSO. [ABSTRACT FROM AUTHOR]

Published

2023

34. Eccentricity forcing on tropical ocean seasonality.

Author

Beaufort, Luc and Sarr, Anta-Clarisse

Subjects

MILANKOVITCH cycles, EARTH'S orbit, EL Nino, OCEAN temperature, SURFACE of the earth, RADIATION

Abstract

The amount of radiative energy received at the Earth's surface depends on two factors: Earth–Sun distance and sunlight angle. Because of the former, high-eccentricity cycles can induce the appearance of seasons in the tropical ocean. In this paper, we use the Earth system model IPSL-CM5A2 to investigate the response of the low-latitude ocean to variations in Earth's orbit eccentricity. Sea surface temperature (SST) and primary production (PP) were simulated under six precession configurations at high eccentricity and two configurations at low eccentricity, representing extreme configurations observed over the past 1 million years. Results show that high eccentricity leads to increased seasonality in low-latitude mean SST, with an annual thermal amplitude of approximately 2.2 °C (vs. 0.5 °C at low eccentricity). Low-latitude mean PP, which already exhibits inherent seasonality under low-eccentricity conditions, sees its seasonality largely increased under high eccentricity. As a consequence, we show that on long timescales the intensity of SST seasonality exhibits only the eccentricity frequency, whereas that of PP additionally follows precession dynamics. Furthermore, the seasonal variations in both SST and PP at high eccentricities are influenced by the annual placement of the perihelion with its direct impact of radiative energy received in tropical regions. This leads to a gradual and consistent transition of seasons within the calendar. We introduce the concept of "eccentriseasons", referring to distinct annual thermal differences observed in tropical oceans under high-eccentricity conditions, which shift gradually throughout the calendar year. These findings have implications for understanding low-latitude climate phenomena such as the El Niño–Southern Oscillation (ENSO) and monsoons in the past. [ABSTRACT FROM AUTHOR]

Published

2024

35. Trend Analysis of Climatic Variables in the Cross River Basin, Nigeria.

Author

Agbiji, Ndifon M., Agunwamba, Jonah C., and Eshiet, Kenneth Imo-Imo Israel

Subjects

WATERSHEDS, EL Nino, TREND analysis, WATER management, SOUTHERN oscillation, CLOUDINESS, RAINFALL intensity duration frequencies

Abstract

There have been several incidences of flood recently, which are believed to be aggravated by increased climatic variables as a result of perceived changes in climatic conditions (due to climate change) in the Cross River Basin. The basin is the most extensively developed and used river basin in the management of the water resources of the Cross River and Akwa Ibom States in Nigeria. In this paper, 30 years (from 1992 to 2021) of hydro-meteorological data (annual average rainfall, maximum and minimum temperatures, hu midity, duration of sunlight (sunshine hours), evaporation, wind speed, soil temperature, cloud cover, solar radiation, and atmospheric pressure) from four stations in the Cross River Basin were obtained from the Nigerian Meteorological Agency (NIMET), Abuja and subjected to trend detection analysis using the Mann–Kendall test to determine the trend in climatic parameters. The results indicate that there is a significant upward trend in annual rainfall in Ogoja but a downward trend in Calabar. The evaporation trend is significantly downward in Eket, whereas in Calabar, there is an upward trend in solar radiation. Generally, there is a significant rise in annual maximum temperature across the basin. Serial correlation and segmented regression analyses were performed to measure the impact of fluctuations in monthly and long-term Tahiti and Darwin's Sea level pressures on the climatic variables at the Cross River Basin catchment. These analyses were necessary to determine the extent of the influence of the El Nino Southern Oscillation climatic cycle. The analyses show no significant association between the El Niño Southern Oscillation (ENSO) and rainfall or between the ENSO and runoff in the catchment. This implies that the impact of the ENSO on rainfall and runoff in the Cross River Basin catchment is not considerable. The intercepts derived from the segmented regression in Eket and Ogoja show significant positive trends in both areas for rainfall and runoff. The trends in intercepts suggest that there are external factors influencing rainfall and runoff other than ENSO events, thus strengthening the assertion of climate change. Results from this study will facilitate the understanding of the variability in climatic parameters by stakeholders in the basin, researchers, policymakers, and water resource managers. [ABSTRACT FROM AUTHOR]

Published

2024

36. The Use of the GWPCA-MGWR Model for Studying Spatial Relationships between Environmental Variables and Longline Catches of Yellowfin Tunas.

Author

Li, Menghao, Yang, Xiaoming, Wang, Yue, Wang, Yuhan, and Zhu, Jiangfeng

Subjects

YELLOWFIN tuna, OCEAN temperature, EL Nino, LONGLINE fishing, LA Nina

Abstract

The yellowfin tuna represents a significant fishery resource in the Pacific Ocean. Its resource endowment status and spatial variation mechanisms are intricately influenced by marine environments, particularly under varying climate events. Consequently, investigating the spatial variation patterns of dominant environmental factors under diverse climate conditions, and understanding the response of yellowfin tuna catch volume based on the spatial heterogeneity among these environmental factors, presents a formidable challenge. This paper utilizes comprehensive 5°×5° yellowfin tuna longline fishing data and environmental data, including seawater temperature and salinity, published by the Western and Central Pacific Fisheries Commission (WCPFC) and the Inter-American Tropical Tuna Commission (IATTC) for the period 2000–2021 in the Pacific Ocean. In conjunction with the Niño index, a multiscale geographically weighted regression model based on geographically weighted principal component analysis (GWPCA-MGWR) and spatial association between zones (SABZ) is employed for this study. The results indicate the following: (1) The spatial distribution of dominant environmental factors affecting the catch of Pacific yellowfin tuna is primarily divided into two types: seawater temperature dominates in the western Pacific Ocean, while salinity dominates in the eastern Pacific Ocean. When El Niño occurs, the area with seawater temperature as the dominant environmental factor in the western Pacific Ocean further extends eastward, and the water layers where the dominant environmental factors are located develop to deeper depths; when La Niña occurs, there is a clear westward expansion in the area with seawater salinity as the dominant factor in the eastern Pacific Ocean. This change in the spatial distribution pattern of dominant factors is closely related to the movement of the position of the warm pool and cold tongue under ENSO events. (2) The areas with a higher catch of Pacific yellowfin tuna are spatially associated with the dominant environmental factor of mid-deep seawater temperature (105–155 m temperature) to a greater extent than other factors, the highest correlation exceeds 70%, and remain relatively stable under different ENSO events. The formation of this spatial association pattern is related to the vertical movement of yellowfin tuna as affected by subsurface seawater temperature. (3) The GWPCA-MGWR model can fully capture the differences in environmental variability among subregions in the Pacific Ocean under different climatic backgrounds, intuitively reflect the changing areas and influencing boundaries from a macro perspective, and has a relatively accurate prediction on the trend of yellowfin tuna catch in the Pacific Ocean. [ABSTRACT FROM AUTHOR]

Published

2024

37. Reconstructing Global Chlorophyll-a Variations Using a Non-linear Statistical Approach.

Author

Martinez, Elodie, Gorgues, Thomas, Lengaigne, Matthieu, Sauzède, Raphaëlle, Menkes, Christophe, Uitz, Julia, Di Lorenzo, Emanuele, and Fablet, Ronan

Subjects

EL Nino, OCEAN color, SPATIO-temporal variation, CHLOROPHYLL in water, COLORIMETRY, MACHINE learning, OCEAN

Abstract

Monitoring the spatio-temporal variations of surface chlorophyll-a concentration (Chl, a proxy of phytoplankton biomass) greatly benefited from the availability of continuous and global ocean color satellite measurements from 1997 onward. These two decades of satellite observations are however still too short to provide a comprehensive description of Chl variations at decadal to multi-decadal timescales. This paper investigates the ability of a machine learning approach (a non-linear statistical approach based on Support Vector Regression, hereafter SVR) to reconstruct global spatio-temporal Chl variations from selected surface oceanic and atmospheric physical parameters. With a limited training period (13 years), we first demonstrate that Chl variability from a 32- years global physical-biogeochemical simulation can generally be skillfully reproduced with a SVR using the model surface variables as input parameters. We then apply the SVR to reconstruct satellite Chl observations using the physical predictors from the above numerical model and show that the Chl reconstructed by this SVR more accurately reproduces some aspects of observed Chl variability and trends compared to the model simulation. This SVR is able to reproduce the main modes of interannual Chl variations depicted by satellite observations in most regions, including El Niño signature in the tropical Pacific and Indian Oceans. In stark contrast with the trends simulated by the biogeochemical model, it also accurately captures spatial patterns of Chl trends estimated by satellite data, with a Chl increase in most extratropical regions and a Chl decrease in the center of the subtropical gyres, although the amplitude of these trends are underestimated by half. Results from our SVR reconstruction over the entire period (1979--2010) also suggest that the Interdecadal Pacific Oscillation drives a significant part of decadal Chl variations in both the tropical Pacific and Indian Oceans. Overall, this study demonstrates that non-linear statistical reconstructions can be complementary tools to in situ and satellite observations as well as conventional physical-biogeochemical numerical simulations to reconstruct and investigate Chl decadal variability. [ABSTRACT FROM AUTHOR]

Published

2024

38. Evaluation of Ocean Color Algorithms to Retrieve Chlorophyll- a Concentration in the Mexican Pacific Ocean off the Baja California Peninsula, Mexico.

Author

Alvarado-Graef, Patricia, Martín-Atienza, Beatriz, Sosa-Ávalos, Ramón, Durazo, Reginaldo, and Hernández-Walls, Rafael

Subjects

OCEAN color, EL Nino, LA Nina, ALGORITHMS, OCEAN, PENINSULAS

Abstract

Mathematical algorithms relate satellite data of ocean color with the surface Chlorophyll-a concentration (Chl-a), a proxy of phytoplankton biomass. These mathematical tools work best when they are adapted to the unique bio-optical properties of a particular oceanic province. Ocean color algorithms should also consider that there are significant differences between datasets derived from different sensors. Common solutions are to provide different parameters for each sensor or use merged satellite data. In this paper, we use satellite data from the Copernicus merged product suite and in situ data from the southernmost part of the California Current System to test two widely used global algorithms, OCx and CI, and a regional algorithm, CalCOFI2. The OCx algorithm yielded the most favorable results. Consequently, we regionalized it and conducted further testing, leading to significant improvements, especially in eutrophic and oligotrophic waters. The database was then separated according to (a) dynamic boundaries in the area, (b) bio-optical properties, and (c) climatic conditions (El Niño/La Niña). Regional algorithms were obtained and tested for each partition. The Chl-a retrievals for each model were tested and compared. The best fit for the data was for the regional algorithms that considered the climatic conditions (El Niño/La Niña). These results will allow for the construction of consistent regionally adapted time series and, therefore, will demonstrate the importance of El Niño/La Niña events on the bio-optical properties of the area. [ABSTRACT FROM AUTHOR]

Published

2024

39. El Niño–Southern Oscillation-Independent Regulation of Western North Pacific Tropical Cyclone Genesis.

Author

Jian, Danlei, Zhao, Haikun, Liu, Min, and Wang, Ronghe

Subjects

TROPICAL cyclones, ROSSBY waves, EL Nino, LATITUDE, KUROSHIO

Abstract

As the most significant interannual signal in the tropical Pacific, the influence of ENSO on the interannual variability in TC genesis location in the western North Pacific (WNP) has received much attention in previous studies. This paper mainly emphasizes the underlying SST factors independent of the ENSO signal and explores how they modulate interannual tropical cyclone genesis (TCG) latitude variability. Our study finds that the meridional sea temperature gradient (SSTG) between the Kuroshio Extension and the WNP still has a significant effect on the interannual variability in the TCG latitude after removing the effect of ENSO (r = 0.6). The interannual forecasts of the TCG latitude were effectively improved from 0.67 to 0.81 when the ENSO-independent SSTG and ENSO were regressed together in a multi-linear regression. We then propose an ENSO-independent physical mechanism affecting the TCG latitude. The equatorward (poleward) SSTG excited the positive (negative) Pacific–Japan telecorrelation pattern over the WNP, forming Rossby wave trains and propagating northward. A significant cyclonic vortex (anticyclonic vortex) with strong convective development (suppression) developed near 20° N, leading more TCs to the northern (southern) part of the WNP. These findings provide a new perspective for the prediction of the interannual variability in the TCG latitude. [ABSTRACT FROM AUTHOR]

Published

2024

40. Systematic and objective evaluation of Earth system models: PCMDI Metrics Package (PMP) version 3.

Author

Lee, Jiwoo, Gleckler, Peter J., Ahn, Min-Seop, Ordonez, Ana, Ullrich, Paul A., Sperber, Kenneth R., Taylor, Karl E., Planton, Yann Y., Guilyardi, Eric, Durack, Paul, Bonfils, Celine, Zelinka, Mark D., Chao, Li-Wei, Dong, Bo, Doutriaux, Charles, Zhang, Chengzhu, Vo, Tom, Boutte, Jason, Wehner, Michael F., and Pendergrass, Angeline G.

Subjects

EL Nino, PYTHON programming language, MADDEN-Julian oscillation, ATMOSPHERIC models, INTEGRATED software, MONSOONS, CLIMATOLOGY

Abstract

Systematic, routine, and comprehensive evaluation of Earth system models (ESMs) facilitates benchmarking improvement across model generations and identifying the strengths and weaknesses of different model configurations. By gauging the consistency between models and observations, this endeavor is becoming increasingly necessary to objectively synthesize the thousands of simulations contributed to the Coupled Model Intercomparison Project (CMIP) to date. The Program for Climate Model Diagnosis and Intercomparison (PCMDI) Metrics Package (PMP) is an open-source Python software package that provides quick-look objective comparisons of ESMs with one another and with observations. The comparisons include metrics of large- to global-scale climatologies, tropical inter-annual and intra-seasonal variability modes such as the El Niño–Southern Oscillation (ENSO) and Madden–Julian Oscillation (MJO), extratropical modes of variability, regional monsoons, cloud radiative feedbacks, and high-frequency characteristics of simulated precipitation, including its extremes. The PMP comparison results are produced using all model simulations contributed to CMIP6 and earlier CMIP phases. An important objective of the PMP is to document the performance of ESMs participating in the recent phases of CMIP, together with providing version-controlled information for all datasets, software packages, and analysis codes being used in the evaluation process. Among other purposes, this also enables modeling groups to assess performance changes during the ESM development cycle in the context of the error distribution of the multi-model ensemble. Quantitative model evaluation provided by the PMP can assist modelers in their development priorities. In this paper, we provide an overview of the PMP, including its latest capabilities, and discuss its future direction. [ABSTRACT FROM AUTHOR]

Published

2024

41. Physical and Biogeochemical Phenology of Coastal Upwelling in the California Current System.

Author

Jorgensen, Ellen M., Hazen, Elliott L., Jacox, Michael G., Pozo Buil, Mercedes, Schroeder, Isaac, and Bograd, Steven J.

Subjects

UPWELLING (Oceanography), EL Nino, PHENOLOGY, LA Nina, SOUTHERN oscillation, PLANT phenology

Abstract

In the California Current System (CCS), changes in the phenology (i.e., seasonal timing) of coastal upwelling alter the functioning of this productive marine ecosystem. Recently developed coastal upwelling indices that account for upwelling strength and nutrient flux to the surface provide a more complete understanding of bottom‐up forcing in the region. Using these indices, we describe CCS upwelling phenological variability in vertical transport and nutrient flux. Physical and biogeochemical spring transitions generally co‐occur in winter or spring, followed by increased upwelling and nutrient flux. In the latter half of the year, upwelling continues but nutrient flux wanes as declining source nutrient concentrations limit the biological efficacy of coastal upwelling. Earlier spring transitions and higher season‐integrated upwelling intensity occur during strong La Niña events at all latitudes, driven largely by stronger alongshore wind stress. Understanding phenological changes in coastal upwelling is critical, as they could have significant ecosystem consequences. Plain Language Summary: In the California Current System (CCS), coastal upwelling carries nutrient‐rich waters to the surface, supporting primary production and driving the coastal ecosystem. This upwelling varies on a seasonal and interannual basis, as reflected in recently developed indices that account for the amount of water upwelled to the surface as well as the amount of nutrients carried in that water. Generally upwelling and nutrient transport are high in the first half of the year. Upwelling persists into the second half of the year, but nutrient transport decreases as the deep‐water sources of these nutrients are depleted. Upwelling in the CCS is also affected by the El Niño Southern Oscillation. During La Niña conditions, strong trade winds enhance upwelling and nutrient transport on the California coast. This paper presents regional, seasonal and interannual patterns of upwelling and nutrient delivery in the CCS, which are important drivers of change to this coastal ecosystem. Key Points: We define new upwelling phenology indices for the California Current System that include nutrient transportWe identify spatial, seasonal, and interannual patterns of upwelling and nutrient deliveryWe relate the physical mechanisms of coastal upwelling with its biological efficacy [ABSTRACT FROM AUTHOR]

Published

2024

42. Problems with solar, volcanic, and ENSO attribution using multiple linear regression methods on temperatures from 1979-2012.

Author

Masters, T.

Subjects

SURFACE temperature, SOLAR energy, VOLCANOLOGY, GLOBAL warming, REGRESSION analysis, EL Nino

Abstract

The effectiveness of multiple linear regression approaches in removing solar, volcanic, and El Nino Southern Oscillation (ENSO) influences from the recent (1979-2012) surface temperature record is examined, using simple energy balance and global climate models (GCMs). These multiple regression methods are found to incorrectly diagnose the underlying signal - particularly in the presence of a deceleration - by generally overestimating the solar cooling contribution to an early 21st century pause while underestimating the warming contribution from the Mt. Pinatubo recovery. In fact, one-box models and GCMs suggest that the Pinatubo recovery has contributed more to post- 2000 warming trends than the solar minimum has contributed to cooling over the same period. After adjusting the observed surface temperature record based on the naturalonly multi-model mean from several CMIP5 GCMs and an empirical ENSO adjustment, a significant deceleration in the surface temperature increase is found, ranging in magnitude from -0.06 to -0.12 Kdec-2 depending on model sensitivity and the temperature index used. This likely points to internal decadal variability beyond these solar, volcanic, and ENSO influences. [ABSTRACT FROM AUTHOR]

Published

2013

43. PAPERS OF NOTE.

Subjects

*OSCILLATIONS, *CLIMATOLOGY, *CLIMATE change, *OCEAN-atmosphere interaction, *METEOROLOGY education, *ATMOSPHERIC models, EL Nino

Abstract

The article presents a research study of the Galápagos Island and its effect on the El Nião-Southern Oscillation (ENSO). ENSO is considered as one of the climate oscillations on Earth. The researchers used an ocean general circulating model and a hybrid coupled model of the tropical Pacific Ocean to examine the effects of the Galápagos Island on ENSO. Results such as the shift lead by the island in the ENSO period from biennial to quasi-quadrinneal are presented. Also, further studies in relation to the subject are encouraged.

Published

2008

44. Papers from 1982-83 El Nino/Southern Oscillation data display workshop

Author

Kessler, W., Taft, B., Meyers, G., Donguy, Jean-René, and Witte, J. (ed.)

Subjects

1982 1983, CONTRECOURANT, COURANT GEOSTROPHIQUE, HYDRODYNAMIQUE, COURANT EQUATORIAL, EL NINO, HAUTEUR DYNAMIQUE

Published

1983

45. Response of CO2 and H2O fluxes of a mountainous tropical rain forest in equatorial Indonesia to El Niño events.

Author

Olchev, A., Ibrom, A., Panferov, O., Gushchina, D., Propastin, P., Kreilein, H., June, T., Rauf, A., Gravenhorst, G., and Knohl, A.

Subjects

RAIN forests, SOLAR radiation, PRIMARY productivity (Biology), EVAPOTRANSPIRATION, EL Nino

Abstract

The possible impact of El Niño-Southern Oscillation (ENSO) events on the main components of CO2 and H2O fluxes in a pristine mountainous tropical rainforest growing in Central Sulawesi in Indonesia is described. The fluxes were continuously measured using the eddy covariance method for the period from January 2004 to June 2008. During this period, two episodes of El Niño and one episode of La Niña were observed. All these ENSO episodes had moderate intensity and were of Central Pacific type. The temporal variability analysis of the main meteorological parameters and components of CO2 and H2O exchange showed a very high sensitivity of Evapotranspiration (ET) and Gross Primary Production (GPP) of the tropical rain forest to meteorological variations caused by both El Niño and La Niña episodes. Incoming solar radiation is the main governing factor that is responsible for ET and GPP variability. Ecosystem Respiration (RE) dynamics depend mainly on the air temperature changes and are almost insensitive to ENSO. Changes of precipitation due to moderate ENSO events did not cause any notable effect on ET and GPP, mainly because of sufficient soil moisture conditions even in periods of anomalous reduction of precipitation in the region. [ABSTRACT FROM AUTHOR]

Published

2015

46. Indian Ocean Dipole and El Niño/Southern Oscillation impacts on regional chlorophyll anomalies in the Indian Ocean.

Author

Currie, J. C., Lengaigne, M., Vialard, J., Kaplan, D. M., Aumont, O., Naqvi, S. W. A., and Maury, O.

Subjects

SOUTHERN oscillation, CHLOROPHYLL, REMOTE sensing, THERMOCLINES (Oceanography), EUPHOTIC zone, PHYTOPLANKTON, EL Nino

Abstract

The Indian Ocean Dipole (IOD) and the El Niño-Southern Oscillation (ENSO) frequently co-occur, driving significant interannual changes within the Indian Ocean. We use a four-decade hindcast from a coupled bio-physical ocean general circulation model, to disentangle patterns of chlorophyll anomalies driven by these two climate modes. Comparisons with remotely-sensed records show that the simulation competently reproduces the chlorophyll seasonal cycle, as well as open-ocean anomalies during the 1997-1998 ENSO and IOD event. Results show that anomalous surface and euphoticlayer chlorophyll blooms in the eastern equatorial Indian Ocean in fall, and southern Bay of Bengal in winter, are primarily related to IOD forcing. IOD depresses integrated chlorophyll in the 5 °S-10 °S thermocline ridge region, even though the signal is negligible in surface chlorophyll. A previously-unreported negative influence of IOD on chlorophyll concentrations is also shown in a region around the southern tip of India. The only investigated region where ENSO has a greater influence on chlorophyll than does IOD, is in the Somalia upwelling region, where it causes a decrease in fall and winter chlorophyll by reducing local upwelling winds. Lastly, we show that the chlorophyll impact of climate indices is frequently asymmetric, with a general tendency for larger positive than negative chlorophyll anomalies. ENSO and IOD cause significant and predictable regional re-organisation of phytoplankton productivity via their influence on near-surface oceanography. Resolving the details of these effects should improve our understanding, and eventually gain predictability, of interannual changes in Indian Ocean productivity, fisheries, ecosystems and carbon budgets. [ABSTRACT FROM AUTHOR]

Published

2013

47. Excitation of equatorial Kelvin and Yanai waves by tropical cyclones in an ocean general circulation model.

Author

Sriver, R. L., Huber, M., and Chafik, L.

Subjects

TROPICAL cyclones, OCEAN waves, GENERAL circulation model, OCEAN circulation, EL Nino

Abstract

The article presents a study regarding the significance of tropical cyclone (TC) in the excitation of Yanai and Kelvin waves that is shown in the ocean general circulation model (GCM). It highlights the use of community climate system model (CCSM3) based on parallel ocean program (POP v1.4.3). It notes that TC wind forcing could influence the amplitude and timing of El Ninñ events.

Published

2012

48. Toward a classification of the Central Pacific El Niño.

Author

Pascolini-Campbell, M., Zanchettin, D., Bothe, O., Timmreck, C., Matei, D., Jungclaus, H., and Graf, H.-F.

Subjects

EL Nino, CLASSIFICATION, OCEAN temperature, PACIFIC Ocean currents

Abstract

The article presents a study on Central Pacific (CP) El Niño classification. It mentions methods based on sea surface temperature anomalies (SSTA) that can be used in classifying different events in the Pacific regions. Results reveal the CP events incidence in the dataset and the increase in the agreement in the classification in the later part of the 20th century.

Published

2012

49. Assessment of a New Global Ocean Reanalysis in ENSO Predictions With NOAA UFS.

Author

Zhu, Jieshun, Wang, Wanqiu, Kumar, Arun, Liu, Yanyun, and DeWitt, David

Subjects

EL Nino, SOUTHERN oscillation, FORECASTING, OCEAN

Abstract

As an update on the current NOAA/NCEP operational ocean reanalysis systems, a new system named GLobal Ocean Reanalysis (GLORe) is recently built up based on the JEDI‐SOCA 3DVar scheme. In this study, the quality of GLORe is assessed in initializing ENSO predictions using the NOAA Unified Forecast System (UFS). In details, initialized by GLORe, 9‐month ensemble hindcasts are conducted from each May/November during 1982–2021. The ENSO prediction skill is compared to the current NOAA operational system CFSv2, suggesting that UFS initialized with GLORe has an improved skill in ENSO predictions. By conducting another set of hindcasts with UFS and the same initializations as CFSv2, it is found that the skill improvement is largely attributed to the ocean initialization with GLORe, but with some contributions from model improvements as well. The effect of ocean initializations is further confirmed by the superiority of GLORe over CFSR as validated against an objective analysis. Plain Language Summary: The operational climate monitoring and outlooks heavily rely on ocean data assimilation systems. At NOAA/NCEP, there are two such systems running in real time—GODAS and CFSR. As two highly related systems, GODAS and CFSR share some common weaknesses, and are lagging to meet the latest operational requirements. In this study, a new ocean reanalysis system (GLORe) is built based on the latest scientific advances. As a first evaluation about GLORe, this work focuses on its performance in initializing dynamical ENSO predictions, a critical component of climate outlooks. In particular, we complete a set of 9‐month ensemble hindcasts initialized with GLORe, by using the NOAA Unified Forecast System as the forecast model. The hindcasts are compared to the present NOAA operational system CFSv2 that is initialized with CFSR, and significant skill enhancements in ENSO predictions are seen in our hindcasts. Further experiments and diagnostics suggest that the skill improvement is mostly attributed to the GLORe initialization, but with some contributions from model improvements as well. As the configurations for our hindcasts are highly relevant to a future operational Seasonal Forecast System (SFS) at NOAA, the hindcasts reported in this paper will serve as an important benchmark for its developments. Key Points: A newly developed ocean reanalysis (GLORe) is introduced and evaluated for its quality in initializing ENSO predictionsUFS initialized with GLORe presents a better performance in ENSO predictions than the current operational system at NOAAThe hindcasts will be a benchmark for the Seasonal Forecast System (SFS) development at NOAA [ABSTRACT FROM AUTHOR]

Published

2024

50. Fluvial Response to Environmental Change in Sub-Tropical Australia over the Past 220 Ka.

Author

Croke, Jacky, Thompson, Chris, Larsen, Annegret, Macklin, Mark, and Hughes, Kate

Subjects

AGGRADATION & degradation, OPTICALLY stimulated luminescence dating, EL Nino, SOUTHERN oscillation, LARVAL dispersal

Abstract

This paper uses a 30 m record of valley alluviation in the Lockyer Creek, a major tributary of the mid-Brisbane River in Southeast Queensland, to document the timing and nature of Quaternary fluvial response. A combination of radiocarbon and optically stimulated luminescence dating reveals a sequence of major cut and fill episodes. The earliest aggradation phase is represented by a basal gravel unit, dating to ~220 ka (marine isotope sub-stage 7d), and although little evidence supports higher fluvial discharges during MIS 5, a MIS 3 fluvial episode characterised by incision and aggradation dates to ~60 ka. A penultimate phase of incision to a depth of 30 m prior to ~14 ka saw the lower Lockyer occupy its current position within the valley floor. The Lockyer Creek shows evidence of only minor fluvial activity during MIS 2, suggesting a drier LGM climate. The appearance of alternating fine- and coarse-grained units at about 2 ka is notable and may represent higher-energy flood conditions associated with a strengthening of El Niño Southern Oscillation activity as observed in the flood of 2011. The aggradation rate for this Holocene floodplain unit is ~11 times higher than the long-term rate. [ABSTRACT FROM AUTHOR]

Published

2024