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Hi
I have an iPhone 7 and for some reason I am unable to access Dropbox files and add them to outlook emails. I can do this on my iPad but draw a blank on my iPhone for some reason.
Any help to resolve this would be greatly appreciated. (I have already tried Google but t no avail)
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CRW's CFS-based Outlook predicts the likelihood of coral bleaching heat stress up to four months in the future (typical length of a bleaching season). Four-month composite outlook maps of six variables are displayed on this page. Outlooks of the six variables that predict potential heat stress conditions for each week during the target four-month period, and that thefour-month composite outlooks are derived from, are accessible through the "Weekly Outlook" linksprovided to the right of the corresponding composite maps. The CFSv2 provides 16 forecast runs per day (nine 45-day forecast runs, three 90-day forecast runs, and four 9-month forecast runs). From these, CRW constructs between 28 and 112 ensemble members at a weekly time scale for its probabilistic outlooks. 112 members are included for future Weeks 1-5, 49 members for Weeks 6-12, and 28 members for Weeks 13-36 with Week 1 being the first future week predicted. The Outlook is updated weekly on Tuesday of Week 1. Details of the six maps are described below. The relationship between the predicted heat stress and potential bleaching severity is based on CRW's pre-defined levels for its satellite coral bleaching heat stress monitoring, as follows:
Note that CRW's Four-Month Coral Bleaching Outlook was formerly known as the Seasonal Coral Bleaching Heat Stress Outlook. Although the product does provide the maximum composite outlook for the entire coverage period of four months, it also provides an outlook for each individual week within a four-month period. Furthermore, the product updates weekly, not seasonally as the previous name might suggest.
In a normal year, the Outlook forecasts no potential for bleaching. When the forecasted SST exceeds bleaching thresholds over a long enough period to cause bleaching, the Outlook maps display the bleaching potential. Actual conditions may vary due to model uncertainty, subsequent changes in climatic conditions, extreme localized variability, or weather patterns.
The 90% and 60% Chance global maps at the top of the page show the heat stress levelpredicted by 90% and 60%, respectively, of the model ensemble members used. Taking the 90% Chance map as an example, at any given data grid, the individual stress levels predicted by all ensemble members are ranked based on the severity of predicted stress for each future week predicted, from the lowest level to the highest. The highest ranking 90% of the members are then selected. The lowest stress level predicted by the highest ranking ensemble members is the heat stress level displayed in the 90% Chance map. In other words, at least one of the ensemble members in the highest ranking 90% predicted the stress level shown; others may have predicted the same or higher stress, if any. Model ensemble members of the remaining 10% predicted either the displayed stress level or lower, if any. At any data grid, the chance for heat stress that is higher than what is indicated in the map is less than 90% and can even be zero.
Users are referred to the probabilistic maps (the bottom four maps on this page) for the chance of any particular stress range (Bleaching Watch and higher, Bleaching Warning and higher, Alert Levels 1 and 2, and Alert Level 2) occurring across the globe over the next four months. Each map displays the percentage of the ensemble members that predicted heat stress within the range specified. For instance, if a data grid shows 70% for the map of Warning & Higher, it indicates that 70% of the ensemble members predicted Warning, Alert Level 1, and/or Alert Level 2, and any two of these three levels may not have been predicted at all.
Due to limitations in model physical processes, numerical calculations, initializations, andinherent unpredictability of the climate system, the accuracy of forecasts dependssignificantly on geographic location and forecast lead-time. For the same geophysicallocation, the forecast accuracy decreases with increasing lead-time.
In general, a model performs better for regions where the processes are controlled by largescale variations; for example, the central-eastern tropical Pacific Ocean, thecentral-eastern tropical Indian Ocean, and the Caribbean. The skill is relatively high even forlonger lead-times in these regions when large-scale climate signals, such as El Nio Southern Oscillation (ENSO), prevail. Ensembles (repeated runs of the model using slightly different initial conditions) used in probabilistic forecasts help to increase the chance of capturing the reality among a set of possible future climate patterns generated.
While acknowledging potential model limitations, longer lead-time predictions are helpful in preparing coral reef stakeholders to understand potential future heat stress. They can greatly support effective reef management and conservation decisions and communication with the public and local decision makers. NOAA CRW suggests caution, however, in the use and analysis of outlooks with lead-times longer than 20 weeks.
CRW's very first (pioneer) weekly Four-Month Coral Bleaching Outlook was at 2x2 spatial resolution and wasreleased tothe public in July 2008 during the 11th International Coral Reef Symposium. It was based onthe SST forecast from an experimental, statistical Linear Inverse Modeling (LIM) system(Liu et al. 2009).The LIM-based Outlook was discontinued in February 2015 due to issues discovered with the LIM model'sforecast for specific coral reef areas around the globe.
The first version of CRW's CFS-based probabilistic weekly Four-Month Coral Bleaching Outlook, based on the SST forecast from CFS Version 1 (CFSv1, Saha et a. 2006), wasreleased to thepublic in July 2012 during the 12th International Coral Reef Symposium(Eakin et al., 2012). The CFS-based Outlook has significantly enhanced CRW's capability for predicting the likelihood of coral bleaching heat stress. With CFS' multiple forecast runs per day, CRW is able to produce a probabilistic outlook that was not possible with CRW's former, LIM-based deterministic Outlook. In this very first version of the probabilistic CFS-based forecast, the Outlook was based on 28 ensemble members derived from CFS' four 270-day forecast runs per day, over a week.
In December 2012, the second version of the CFS-based weekly Four-Month Coral Bleaching Outlook was released by upgrading the system to use the SST forecast from the operational CFSv2 (Saha et al. 2012; Saha et al. 2010) that replaced CFSv1(Liu et al. 2018).InFebruary 2015,the third version of the CFS-based Outlook was launched with a finer spatial resolution of 0.5x0.5-degrees, increased from the previous 1x1-degree resolution(Liu et al. 2018).Furthermore, the daily 0.25-degree Optimum Interpolation SST (OISST) Version 2 analysis was used to provide the observations that fed the Outlook Version 3.0 product, instead of the weekly 1x1-degree OISST Version 2. As a result, the Outlook Version 3.0 for a predicted time periodwas produced one week earlier than the Outlook Version 2.0.
In the Outlook Version 4.0, released publicly in May 2017, all 16 daily forecast runs available from the CFSv2 were used to construct significantly more ensemble members for the first 12 weeks of the four-month probabilistic forecast (Liu et al. 2017,2018).All other aspects of the forecast system remained the same as in the Outlook Version 3.0.
The most recent Outlook Version 5.0 (v5) was made available in November 2017 and released publicly in March 2018. For this version, CRW's near-real-time daily 5km satellite Coral Bleaching HotSpot Version 3 replaced the daily Coral Bleaching HotSpot derived from the daily 0.25-degree OISST Version 2 analysis as the observational feed. This enhanced the continuity between CRW's satellite nowcast and modeled forecast of bleaching heat stress for the upcoming weeks and months. 152ee80cbc
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