Abstract
The 2014 Northeast Pacific hurricane season was highly active, with above-average intensity and frequency events, and a rare landfalling Hawaiian hurricane. We show that the anomalous northern extent of sea surface temperatures and anomalous vertical extent of upper ocean heat content above 26 °C throughout the Northeast and Central Pacific Ocean may have influenced three long-lived tropical cyclones in July and August. Using a variety of satellite-observed and -derived products, we assess genesis conditions, along-track intensity, and basin-wide anomalous upper ocean heat content during Hurricanes Genevieve, Iselle, and Julio. The anomalously northern surface position of the 26 °C isotherm beyond 30° N to the north and east of the Hawaiian Islands in 2014 created very high sea surface temperatures throughout much of the Central Pacific. Analysis of basin-wide mean conditions confirm higher-than-average storm activity during strong positive oceanic thermal anomalies. Positive anomalies of 15–50 kJ cm−2 in the along-track upper ocean heat content for these three storms were observed during the intensification phase prior to peak intensity, advocating for greater understanding of the ocean thermal profile during tropical cyclone genesis and development.
Highlights
Due to the potentially destructive and deadly nature of powerful tropical cyclones (TCs), a more complete understanding of their genesis and life cycles is imperative
To investigate variability of ocean conditions throughout the Northeast Pacific Ocean (NPO) in 2014, we present monthly averages of sea surface temperature (SST), SST anomaly (SSTA), upper ocean heat content (UOHC), and UOHC anomaly (UOHCA) conditions for July and August as these months included Hurricanes Genevieve, Iselle, and Julio
These three major hurricanes are of specific interest, firstly because they initially formed within an 11-day period at the end of July into early August, and because these three TCs experienced significantly long durations and trajectories into the Central portion of the NPO
Summary
Due to the potentially destructive and deadly nature of powerful tropical cyclones (TCs), a more complete understanding of their genesis and life cycles is imperative. The 2014 hurricane season in the Northeast Pacific Ocean (NPO) basin was more active than normal. We include Central Pacific TCs in these totals. Long-term averages for the NPO (1981–2010) include 15 tropical storms, 8 hurricanes, and 4 major storms [2]. The NPO accumulated cyclone energy, an index of storm occurrence, duration, and intensity [3], was 162% of the long-term median value [2], indicating that the 2014 NPO season was one of the busiest on record. As a direct result of the 2014 NPO hurricane season, 27 lives were lost and over USD $1.02 billion in damages occurred [2]
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