Catarina became a Category 1 hurri-  and relative humidity at 600 hPa favored   al., 2016; OLIVER et al., 2017). MHWs can   Atlantic during summer. The lack of clouds
 cane on the morning of March 26 (MCTAG-  convective activity during the Catarina peri-  be caused by atmospheric or oceanic pro-  allows more solar radiation to reach both
 GART-COWAN et al., 2006). On that day,   od and were found to be the main compo-  cesses, depending on the event and loca-  the continent and the ocean causing the
 the storm interacted with environmental   nents of positive GPI anomalies. However,   tion (HOLBROOK et al., 2019).  surface heating of the land and sea which
 factors that produced the second highest   the three largest GPI peaks only appeared   MHWs have a devastating impact on   leads to heat waves over the continent and
 peak in GPI (Figure 3a). Notably, this peak   after the system moved into the region of   marine ecosystems (SMALE  et al., 2019).   the ocean, respectively. The cause of these
 was formed during the strong increase in   low wind shear stress (between 850 and   For example, the event that occurred in   blocks has also been identified and is asso-
 humidity observed between March 25 and   200 hPa levels). Therefore, confirming   the Mediterranean in 2003 caused a mass   ciated with the Madden Julian Oscillation,
 26 (Figure 3g). Meanwhile, the OHC was   that the Catarina transition was initiated   mortality of at least 25 invertebrate species   especially when it is more active in the In-
 close to its climatology (Figure 4a). It was   by the atypical pattern of dipole blocking   from rocky shores (BLACK et al., 2004; OL-  dian Ocean (RODRIGUES & WOOLLINGS,
 only on March 27 that the hurricane en-  (MCTAGGART-COWAN et al., 2006).  ITA et al., 2007; GARRABOU et al., 2009).   2017). Furthermore, Costa and Rodrigues
 countered abnormally high OHC, and the   The areas of positive OHC anomalies sug-  The damage caused by MHWs is not limit-  (2021), using outputs from the climate
 wind field intensified to a maximum of   gest that oceanic conditions may have been   ed to demersal organisms or coastal eco-  models of the Coupled Model Intercompar-
 34.7 m/s (VIANNA et al., 2010).  favorable for cyclogenesis. However, there   systems. The MHW  that occurred in the   ison Project Phase 6 (CMIP6), identified an
 The results suggest a close correspon-  was no significant correspondence between   Northwest Atlantic Ocean in 2012 had an   increasing trend in the occurrence, intensity,
 dence between major positive GPI anoma-  such anomalies and the main stages of Cata-  impact on fish of great commercial impor-  duration, and spatial extent of these MHWs
 lies and the main stages of Catarina’s life cy-  rina’s development. Unlike the OHC in March   tance (MILLS et al., 2013). When tempera-  in the Southwest Atlantic, both for the peri-
 cle, especially when the system developed   2004,  the  GPI  was  the  highest  between   tures are as extreme as the event that per-  od 2021-2050 as for the period 2071-2100,
 a subtropical cyclone structure, underwent   March of all years (1990-2019). Therefore,   sisted in the Northwest Pacific Ocean from   analyzing a moderate and a more extreme
 a tropical transition, and intensified into a   the results  of Lauton  et al.  (2021) indicate   2014 to 2016, the MHW can have negative   scenario of climate change. Furthermore,
 Category 1 hurricane. Lauton et al. (2021)   that the GPI is potentially a good index for   effects even on birds and other marine ani-  the  results show that the southwestern
 speculate that even the extratropical pre-  obtaining a threshold for cyclogenesis in the   mals (CAVOLE et al., 2016). Recently, Smith   South Atlantic can reach a quasi-permanent
 cursor of Catarina received important con-  region. This will likely affect future investiga-  et al. (2021) provided a global perspective   state of MHWs by the end of the 21st cen-
 tributions from the interaction with high   tions into the impacts of climate change on   on the impacts of MHWs on human soci-  tury, with MHWs lasting all summer.
 GPI values. Vorticity anomalies at 850 hPa   the likelihood of other such extreme events.  eties. Ecological impacts have ranged from   There are still no studies on MHWs in
                  harmful  algal  blooms  and  mass  mortality   other parts of the South and Tropical At-
 3. Marine Heatwaves    events to reconfigurations of entire eco-  lantic, but Figure 5 shows an increase in
                  systems, affecting habitat, regulation, and   the occurrence of these extreme events in
 Climate change substantially affects the   Marine Heatwaves (MHW). An MHW is de-  ecosystem services globally. The economic   practically the entire South and Tropical
 planet and society, especially by increas-  fined as a prolonged (minimum of 5 days)   costs of individual MHW events exceeded   Atlantic during the summer, with positive

 ing the intensity and frequency of extreme   event of sea surface temperatures  (SST)   US$800 million in direct losses and US$3.1   accumulated intensity values   throughout
 events, such as floods, droughts and heat   above the 90th percentile threshold in rela-  billion in indirect losses of ecosystem ser-  almost the entire coast of Brazil. Unfortu-
 waves, with underdeveloped and devel-  tion to a climatology of at least 30 years of   vices over several years.  nately, the impacts of MHWs on the ma-
 oping countries being the most affected   data (HOBDAY et al., 2016, 2108). In addi-  Although its importance has been   rine ecosystems of the South and Tropical
 (TRENBERTH et al., 2007). Although most   tion to global-scale studies on the duration,   proven, there are few studies on MHWs   Atlantic and their economic consequences
 studies focus on extremes over the conti-  frequency and intensity of MHWs, surveys   and their properties for the South Atlan-  have not been studied in depth. Brauko et
 nents, Oliver et al. (2018) found that there   were conducted for specific events that oc-  tic. Rodrigues  et al. (2019) showed that   al. (2020) identified a decrease in species
 has been a significant increase in the fre-  curred in the North Pacific, North Atlantic,   atmospheric blockages over southeastern   diversity in planktonic and benthic com-
 quency, duration and intensity of extreme   Western Australia and the Mediterranean   Brazil are responsible for up to 60% of   munities in the coastal region of Santa
 temperature events in the  oceans, called   Sea (SCANNELL  et al., 2016; HOBDAY  et   MHW events in the southwestern South   Catarina  as  a  result  of  MHWs  combined


 410  BLUE ECONOMY                                                          Ocean and Climate: New Challenges  411