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Cyclone Guambe
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Tropical Cyclone Guambe
Guambe near peak intensity east of the coast of Mozambique on 19 February
Meteorological history
Formed11 February 2021
Post-tropical21 February 2021
Dissipated22 February 2021
Tropical cyclone
10-minute sustained (MFR)
Highest winds155 km/h (100 mph)
Highest gusts220 km/h (140 mph)
Lowest pressure953 hPa (mbar); 28.14 inHg
Category 2-equivalent tropical cyclone
1-minute sustained (SSHWS/JTWC)
Highest winds165 km/h (105 mph)
Lowest pressure960 hPa (mbar); 28.35 inHg
Overall effects
FatalitiesNone reported
DamageUnknown
Areas affectedMadagascar, Mozambique, South Africa, Eswatini
IBTrACSEdit this at Wikidata / [1]
Part of the 2020–21 South-West Indian Ocean cyclone season

Tropical Cyclone Guambe was the third tropical cyclone to make landfall in the country of Mozambique since December 2020, following Cyclone Eloise and Tropical Storm Chalane. The eleventh tropical depression, eighth named storm, and the fourth tropical cyclone of the 2020–21 South-West Indian Ocean cyclone season, Guambe originated from a tropical disturbance in the Mozambique Channel on 10 February. Two days later, the system developed into a subtropical depression that made landfall in Mozambique. The storm proceeded to make a clockwise loop over the country for the next several days, while dumping prolific amounts of rainfall in the region, before re-emerging into the Mozambique Channel on 16 February. Soon afterward, the system strengthened into a moderate tropical storm and was named Guambe. A couple of days later, Guambe underwent rapid intensification, reaching tropical cyclone status on 19 February, and peaking as a Category 2-equivalent tropical cyclone shortly afterward. Afterward, Guambe underwent an eyewall replacement cycle and weakened back into a severe tropical storm on 20 February. Afterward, Guambe transitioned into an extratropical storm on 22 February. On the next day, Guambe was absorbed into another extratropical cyclone.

After making landfall in Mozambique on 12 February as a subtropical low, Guambe's precursor disturbance caused widespread flooding across Mozambique, which destroyed homes and crops, and also displaced thousands of people weeks after Cyclone Eloise made landfall near the same location. Guambe was estimated to have caused millions of dollars (2021 USD) in damages.[2] No deaths were reported from the storm.

Meteorological history

[edit]
Map plotting the storm's track and intensity, according to the Saffir–Simpson scale
Map key
Saffir–Simpson scale
  Tropical depression (≤38 mph, ≤62 km/h)
  Tropical storm (39–73 mph, 63–118 km/h)
  Category 1 (74–95 mph, 119–153 km/h)
  Category 2 (96–110 mph, 154–177 km/h)
  Category 3 (111–129 mph, 178–208 km/h)
  Category 4 (130–156 mph, 209–251 km/h)
  Category 5 (≥157 mph, ≥252 km/h)
  Unknown
Storm type
triangle Extratropical cyclone, remnant low, tropical disturbance, or monsoon depression

On 10 February, a disturbance developed in the Mozambique Channel between Mozambique and Madagascar. For the next couple of days, the system slowly moved westward, approaching the coast of Mozambique while gradually organizing. On 12 February, Météo-France La Réunion noted that the system had transitioned into a subtropical depression and had made landfall near Inhambane, Mozambique; the subtropical depression was also slowly moving inland without having developed any significant sustained convective activity near the center.[3] The next day, the system was designated as an overland tropical depression, while bringing locally heavy rainfall across portions of southern Mozambique.[4] For the next several days, the system made a slow clockwise loop over Mozambique, while slowly organizing. By 15 February, the meandering system had turned back eastward and was expected to re-emerge into the Mozambique Channel.[5] At 06:00 UTC on 16 February, the system re-emerged over warm open water and was designated as Tropical Disturbance 11.[6] The storm resumed its organizing trend soon afterward, and at 18:00 UTC that day, the MFR upgraded the system to a tropical depression.[7]

On 17 February, the depression turned southward and strengthened into Moderate Tropical Storm Guambe at 12:00 UTC that day, with the northern section of the storm becoming enveloped in deep convection.[8] Around that time, Guambe had a secondary low-level circulation center over northern South Africa, which slowed the storm's southward movement.[9] The storm continued strengthening into the next day as thunderstorm activity became more concentrated around the center of the storm's circulation; however, the lack of upper-level divergence initially limited any significant intensification.[10] Despite this, Guambe eventually strengthened into a severe tropical storm at 18:00 UTC on 18 February.[11] Over the next several hours, Guambe began undergoing rapid intensification, with a well-defined central dense overcast (CDO) configuration developing, as the cyclone continued becoming more organized.[12] Guambe quickly reached tropical cyclone status at 06:00 UTC on 19 February, with the appearance of a very small eye on infrared satellite imagery and a well-defined core structure, even as the storm turned southwestward.[13][14] Soon afterward, Guambe reached its peak intensity, with 10-minute sustained winds of 155 km/h (96 mph), and a minimum central pressure of 953 millibars (28.1 inHg).[15] Around the same time, the JTWC estimated that Guambe had strengthened into a Category 2-equivalent tropical cyclone on the Saffir–Simpson scale (SSHWS), with 1-minute sustained winds at 155 km/h (96 mph), with the storm's 1-minute sustained wind speed having increased by 65 km/h (40 mph) over a 24-hour period.[16]

The storm's forward motion slowed as Guambe held onto its strength, with the storm's eye disappearing and reappearing on satellite imagery, and sporadic convective bursts.[16] However, Guambe soon began to weaken, with the storm's feeder bands unravelling and cloud tops warming, though the storm managed to maintain a symmetrical structure with a pinhole eye.[17] Despite forecasts of further strengthening, Guambe rapidly weakened back down to severe tropical storm status on 20 February, due to an eyewall replacement cycle, while the storm began accelerating towards the southeast.[18] Guambe further decayed as its rainbands unraveled and its cloud tops warmed, brought on by high wind shear and cool sea surface temperatures.[citation needed] Later on 21 February, Guambe began undergoing an extratropical transition,[19] before completing the transition at 06:00 UTC on the next day, even as the storm began interacting with the southern jet stream. Subsequently, the MFR issued their last advisory on the storm.[20] On 23 February, Guambe was absorbed into another larger extratropical cyclone.

Preparations and impact

[edit]

After Guambe's precursor disturbance moved ashore in Mozambique on 12 February, the storm proceeded to produce prolific rainfall across the region for the next several days, leading to widespread flooding, and displacing over 27,000 people. The storm washed out two bridges on the Umbeluzi River, flooded hundreds of homes, and also destroyed numerous crops.[21] On 15 February, a prison in southern Mozambique transferred 150 prisoners to another prison facility 80 kilometres (50 mi) away due to the risk of flooding from the storm.[22] The storm struck less than a month after Cyclone Eloise had made landfall near the same place, worsening the ongoing crisis in the region.[23] The storm also caused flooding in parts of northeastern South Africa during this time.[24] As a tropical disturbance, Guambe caused millions of dollars (2021 USD) in damages in South Africa.[2] After Guambe re-emerged into the Mozambique Channel on 16 February and began strengthening, local authorities in Mozambique anticipated the threat of additional flooding from the storm in the southern portion of the country, especially the region between Beira and Inhambane.[23] The mysterious deaths of 186 Spinner dolphins off of Bazaruto Archipelago National Park was thought to be blamed on Cyclone Guambe.[25][26] However, there were no additional reports of damage to human property as Guambe accelerated southeastward.[citation needed]

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Cyclone Guambe

View on Grokipedia
from Grokipedia
Tropical Cyclone Guambe was the fourth of the 2020–2021 South-West Indian Ocean cyclone season, forming in the and primarily impacting with heavy rainfall and strong winds in 2021. Originating from a low-pressure disturbance on 10 February, the system initially developed into a subtropical depression and made near 's coast on 12 February, leading to widespread flooding across central and southern regions before looping over land and re-entering the channel on 16 February. It subsequently intensified into a , reaching peak intensity on 19 February with maximum sustained winds of approximately 100 mph (155 km/h), equivalent to a Category 2 hurricane on the Saffir-Simpson scale, while its center remained 60–90 miles offshore. The cyclone's precursor and subsequent passage brought torrential rains, triggering flash floods and localized damage to infrastructure, agriculture, and standing crops in provinces such as , Gaza, and , with additional effects in and including rainfall and environmental disruptions such as dolphin strandings. Authorities issued red warnings for heavy precipitation, gusts up to 140 km/h, and thunderstorms, exacerbating recovery challenges from prior storms like Eloise in January 2021. Although Guambe did not cause widespread devastation or significant casualties, its effects highlighted Mozambique's vulnerability to successive cyclones in the region, contributing to ongoing humanitarian needs in flood-prone coastal areas.

Background

Seasonal context

The 2020–21 South-West Indian Ocean cyclone season was an above-average event in the basin, producing 12 named storms and 5 tropical cyclones, exceeding the 1991–2020 climatological average of 10.5 named storms. The season ran from November 1, 2020, to April 30, 2021, with most activity concentrated during the Southern Hemisphere summer months when sea surface temperatures in the region were anomalously warm. La Niña conditions, which prevailed from late 2020 through early 2021, contributed to the heightened activity by reducing vertical wind shear and promoting favorable atmospheric conditions for cyclone genesis and intensification across the southwest Indian Ocean. Cyclone Guambe formed amid a period of intense regional cyclone activity affecting , marking the third such system to impact the country in rapid succession following Tropical Storm Chalane in late December 2020 and in mid-January 2021. These events, occurring within approximately six weeks, compounded recovery challenges from prior disasters and underscored the clustering of cyclone strikes in the region during active seasons. Mozambique's vulnerability to such systems stems from its geographic position along the , a hotspot for formation where warm ocean waters and low often allow storms to develop near the coast before moving inland. The La Niña phase further amplifies this risk, as it increases the probability of cyclone landfalls over by roughly 4.5 times compared to El Niño conditions, through enhanced moisture transport and reduced atmospheric stability.

Naming and classification

Cyclone Guambe was assigned its name on 17 February 2021 by Météo-France's Regional Specialized Meteorological Center (RSMC) on La Réunion, the official warning center for the South-West Indian Ocean basin, drawn from the rotating list of names contributed by member states of the World Meteorological Organization (WMO). The name "Guambe," proposed by Mozambique, refers to a local term for a type of tree. This marked the seventh named storm of the 2020–21 season. The system was initially classified as a subtropical depression by the RSMC on 11 February 2021, before transitioning and being reclassified as a moderate tropical storm upon naming, with sustained winds reaching 65 km/h (35 kt). It further intensified into a tropical cyclone on 19 February. At its peak, Météo-France estimated 10-minute sustained winds of 155 km/h (85 kt) and a minimum central pressure of 953 hPa, classifying it as a moderate tropical cyclone on their scale. In contrast, the Joint Typhoon Warning Center (JTWC), using 1-minute sustained winds, assessed the peak at 165 km/h (90 kt), equivalent to a Category 2 hurricane on the Saffir–Simpson hurricane wind scale. These differences arise from varying measurement standards and estimation methods employed by the agencies. Following the season, the name Guambe was not retired from the WMO's naming list, as the cyclone's impacts were deemed minor and did not meet the criteria for retirement, which typically requires exceptionally deadly or destructive events. The name remains available for reuse in future seasons.

Meteorological history

Formation and initial landfall

A precursor disturbance to Cyclone Guambe emerged on 10 February 2021 within the , originating from an extended that provided favorable conditions for initial organization. This developed amid moderate and warm sea surface temperatures, allowing for gradual convective activity over the preceding days. On 11 February, the system organized sufficiently to be classified as a subtropical depression by La , with estimated 10-minute sustained winds reaching approximately 65 km/h. Later that day, around 06:00 UTC on 12 February, the depression made landfall near in southern , bringing gusty winds and organized but shallow as observed in from , which showed fragmented cloud bands without robust upper-level outflow. The (JTWC) noted the system's hybrid subtropical nature at this stage, characterized by limited deep and due to cooler continental influences. Following , the depression weakened rapidly as it moved inland, degenerating into a remnant low by 13 February amid increasing friction and dry air entrainment. The system tracked slowly westward, producing significant rainfall across province, with accumulations reaching up to 100 mm over the initial four days, contributing to localized flooding. Satellite observations during this phase highlighted the erosion of convective structure, with imagery revealing cooling cloud tops and disorganized patterns as the system lost its tropical characteristics.

Reintensification and peak

Following its initial weakening over land, the remnant low-pressure system reorganized over the on 16 February 2021, regaining tropical depression status as convective activity increased. The depression was officially named Tropical Storm Guambe by on 17 February as it continued to develop amid favorable conditions. By 18 February, Guambe had intensified into a moderate tropical storm, with maximum 10-minute sustained winds of 35–45 knots (65–83 km/h) and a central pressure of 985 hPa, positioned at approximately 22.4°S 37.4°E. Intensification accelerated on 19 February, when the system reached tropical cyclone strength, featuring an emerging eyewall structure and maximum sustained winds of 65–85 knots (120–157 km/h) at a central pressure of 953 hPa. Guambe attained its peak intensity later that day while centered offshore in the southern Mozambique Channel, tracking south-southwestward parallel to the Mozambique coastline at a distance of 150–200 km, during which its asymmetric wind field expanded to influence coastal regions with gusts up to 100 km/h. The rapid reintensification was supported by low vertical below 10 m/s (20 knots) and warm sea surface temperatures of 28–30°C, which provided ample energy for and structural organization.

Dissipation

Following its peak intensity, Guambe began post-peak weakening on 20 February 2021 as it recurved southeastward, initiating an extratropical transition influenced by increasing vertical and cooler sea surface temperatures. By this time, the system had moved away from the warm waters of the , with its track shifting under the steering influence of a mid-level subtropical to the east. On 21 February, Guambe's maximum sustained winds had dropped below the tropical cyclone threshold to 50 knots (93 km/h), leading to its reclassification as a severe tropical storm while positioned at approximately 28.0°S 36.9°E. The storm continued accelerating south-southeastward at around 7 knots, interacting with an approaching mid-latitude trough to its southwest, which further disrupted its structure and promoted the ongoing transition. Forecasts indicated a brief potential reintensification before definitive weakening set in due to the unfavorable environment. By 22 February, Guambe had fully transitioned into a post-tropical depression centered near 34.1°S 44.6°E, with maximum winds of 55 knots (102 km/h) and accelerating east-southeastward at 29 knots into higher latitudes south of . The remnants maintained a broad circulation but lost tropical characteristics amid the baroclinic influences of the mid-latitude trough. These remnants were absorbed by a developing on 23 February east of 40°S, marking the complete dissipation of the system. The dissipating remnants produced minor lingering rainfall in far southern , with accumulations generally under 50 mm, contributing modestly to the region's above-average totals.

Preparations

Warnings and monitoring

, as the Regional Specialized Meteorological Center (RSMC) for the South-West , issued the first advisories for the system that became Cyclone Guambe on 17 2021, initially classifying it as a tropical depression in the . The (JTWC) began providing warnings on 18 2021, designating it as 21S with initial wind estimates around 65 km/h. Mozambique's National Institute of Meteorology (INAM) escalated alerts in coordination with these international forecasts, issuing initial warnings for the provinces of and on 18 due to expected heavy rainfall and gusty winds. As Guambe intensified, warnings progressed rapidly; on 19 February, Météo-France upgraded it to status with sustained winds of 130 km/h, prompting INAM to elevate alerts to cyclone warnings for , , and adjacent areas, despite the storm's forecasted offshore track. These upgrades emphasized risks of storm surges up to 0.3 meters and widespread flooding from heavy rains, even without direct landfall. The progression allowed for targeted preparedness in coastal districts, focusing on maritime and riparian vulnerabilities. Monitoring efforts relied on advanced satellite imagery from Meteosat-8, which provided real-time visible and infrared data to track the cyclone's convective structure and movement off southeastern Africa. Numerical weather prediction models, including the European Centre for Medium-Range Weather Forecasts (ECMWF) and Global Forecast System (GFS), were integral to surveillance, consistently forecasting an offshore path parallel to the Mozambican coast at about 100 km distance. Additionally, the African Risk Capacity (ARC) utilized its Tropical Cyclone Explorer (TCE) software to assess parametric insurance triggers, monitoring wind speeds and rainfall projections from 17 to 22 February for potential payouts to affected communities. Forecast accuracy was high regarding the cyclone's , with models correctly predicting no and limiting warnings to rainfall and indirect impacts, which helped avoid unnecessary large-scale evacuations while ensuring focus on flood-prone regions. This precision stemmed from ensemble model consensus on Guambe's southward turn, reaching peak intensity as a Category 2-equivalent system before recurving southeastward.

Evacuations and resource allocation

In response to forecasts of Cyclone Guambe's approach, the Mozambican government, through the National Disaster Management Institute (INGD), initiated preventive evacuations in the provinces of and to minimize risks from potential flooding and strong winds. Temporary shelters were rapidly established in schools, community centers, and other public facilities, providing immediate safety for the relocated populations while authorities monitored the storm's offshore track. These efforts were triggered by early warning systems that allowed for timely population movements, though no large-scale international evacuations were required due to the cyclone's path remaining primarily over the . Resource deployment was coordinated by the INGD, which prepositioned essential supplies including food rations, clean water, and medical kits in vulnerable coastal areas of and provinces ahead of the storm's closest approach. Local logistics ensured distribution to at-risk communities, focusing on basic needs to support those in shelters and isolated villages. The African Risk Capacity (ARC) monitored the event for potential payouts under Mozambique's policy, but the estimated losses fell below the attachment point of 7.2 million USD, resulting in no disbursement. This outcome highlighted ongoing challenges in , as Mozambique's capacities were already strained by the impacts of recent cyclones Chalane and Eloise in late 2020 and early 2021, which had depleted stockpiles and infrastructure, leading to a more efficient but scaled-back mobilization for Guambe.

Impacts

Effects in Mozambique

Cyclone Guambe's precursor disturbance and subsequent landfall primarily impacted through extensive flooding, affecting 38,871 people across the central and southern regions. Much of the flooding and displacement resulted from the precursor's landfall near on 12 February, prior to the system's reintensification offshore. No fatalities were directly attributed to the cyclone, though over 27,000 individuals were displaced due to inundated homes and communities. In the aftermath, flooded areas heightened health risks, particularly from waterborne diseases such as , exacerbated by contaminated water sources and limited access to . Economic losses from the storm were estimated at 2,266 USD (2021 values), driven largely by damage to structures and significant crop losses in coastal agricultural zones. Fisheries along the coastline faced disruptions from a reaching heights of 0.7 meters, which damaged boats and fishing gear, affecting livelihoods in vulnerable coastal communities. Infrastructure sustained moderate , with gusts reaching up to 100 km/h toppling power lines and eroding minor roads in province. Accumulated rainfall of 150–200 mm triggered river overflows in the basin, leading to further flooding that isolated villages and strained local transport networks. The most severe effects were concentrated near , where the initial landfall as a subtropical low amplified flooding and wind impacts, while peripheral regions experienced lighter consequences from the cyclone's main circulation, including scattered heavy rains but minimal structural damage. Preparatory evacuations in high-risk areas helped mitigate potentially worse human tolls.

Effects in and

Minimal effects were reported in from the cyclone's distant outer circulation. The cyclone's peripheral circulation also brought gusty winds and heavy rain to northeastern , particularly the and provinces, during its weakening and remnant phases on 21–22 February. This resulted in localized flooding that damaged homes and infrastructure, with an associated low-pressure system exacerbating rains and causing scattered disruptions. Similar minor effects extended to , where gusty conditions and rainfall led to brief flooding in low-lying areas. Regionally, the storm generated storm surges up to 0.7 meters along coastal ports in , temporarily impacting maritime operations. Overall, cross-border effects displaced fewer than 10,000 people, with economic losses primarily affecting small-scale farming and through disrupted activities and crop inundation. The extratropical remnants of Guambe delivered scattered showers and cooler weather across in late February.

Environmental effects

Dolphin strandings

In late February 2021, a mass stranding event affected spinner dolphins (Stenella longirostris) in the Bazaruto Archipelago National Park, located in Province, . A total of 111 individuals were found dead across two separate incidents: the first on February 21, involving an initial group discovered in shallow waters (3-7 meters depth) on the western side of Bazaruto Island, and the second on February 23, with additional carcasses washing ashore nearby. The strandings were initially attributed to the recent passage of Guambe, which generated rough seas and strong offshore winds capable of causing disorientation in these oceanic dolphins, known for their preference for deeper waters during nighttime feeding. Necropsies performed on examined specimens revealed no evidence of physical trauma, mutilation, or hydrocarbon contamination, supporting the of environmental disorientation rather than direct or . Approximately 23% of the necropsied dolphins had empty stomachs, suggesting possible disruption to their patterns amid the cyclone's turbulent conditions. Preliminary investigations, conducted by an intersectoral team including representatives from Mozambique's ministries, , , and experts from the IUCN Cetacean Specialist Group, took place from February 24 to 27, 2021. The March 2021 report highlighted low tides as a contributing factor to the beaching, alongside potential anomalies, biotoxins from algal blooms, or acoustic interference, though no active seismic surveys were occurring in the area at the time. Samples of tissues and environmental data were forwarded to specialized laboratories for further analysis, but no definitive causal link to the cyclone was established, with a similar stranding noted in the region in 2006. This event underscored the vulnerabilities of marine mammals like spinner dolphins to tropical cyclones within protected areas such as Bazaruto Archipelago National Park, which safeguards critical habitats for cetaceans amid increasing climate-related disturbances. The incident prompted enhanced monitoring protocols for strandings in the park, emphasizing the need for rapid response teams to assess and mitigate such impacts on conservation efforts.

Flooding and ecological disruption

Cyclone Guambe produced cumulative rainfall ranging from 150 to 300 mm across central and southern , triggering significant riverine and in vulnerable low-lying regions. This overwhelmed drainage systems and exacerbated seasonal river flows, particularly in the River basin, where peripheral effects from the storm's heavy rains contributed to hydrological alterations. The resulting inundation temporarily submerged significant areas of wetlands in the Delta, disrupting natural water regimes and leading to widespread saturation of floodplains. Ecologically, the flooding accelerated in agricultural zones, stripping from deforested slopes and increasing loads in downstream waterways. These events interrupted migratory patterns of birds and , as flooded habitats altered breeding grounds and foraging routes in the delta's intricate network of channels and marshes. Additionally, coastal surges raised concerns over into estuaries, potentially stressing forests by elevating levels and hindering establishment. Runoff from the intense rains carried elevated levels of and agricultural pollutants into rivers and coastal zones, temporarily degrading and causing short-term declines in local aquatic ecosystems. Despite these disruptions, the cyclone's moderate intensity allowed for relatively swift recovery in affected areas, with hydrological systems rebounding within weeks. Post-event evaluations indicated no substantial long-term losses, though the event compounded stress on ecosystems already strained by successive cyclones in the region.

References

  1. https://earthobservatory.nasa.gov/images/147958/tropical-cyclone-guambe
  2. https://www.earth.com/image/tropical-cyclone-guambe-approaches-mozambique/
  3. https://modis.gsfc.nasa.gov/gallery/individual.php?db_date=2021-02-20
  4. https://reliefweb.int/report/mozambique/giews-country-brief-mozambique-08-june-2021
  5. https://fews.net/global/global-weather-hazards/february-2021-2
  6. https://reliefweb.int/report/mozambique/mozambique-tc-guambe-update-gdacs-jtwc-inam-media-echo-daily-flash-19-february
  7. https://www.nesdis.noaa.gov/news/tracking-tropical-cyclone-guambe
  8. https://reliefweb.int/report/mozambique/government-republic-korea-donation-supports-smallholder-farmers-mozambique
  9. https://journals.ametsoc.org/view/journals/bams/103/8/BAMS-D-22-0069.1.pdf
  10. https://www.unocha.org/publications/report/mozambique/southern-africa-tropical-cyclone-eloise-flash-update-no8-25-january-2021
  11. https://www.researchgate.net/publication/261411422_Tropical_cyclone_formation_and_motion_in_the_Mozambique_Channel
  12. https://journals.ametsoc.org/view/journals/clim/16/23/1520-0442_2003_016_3932_sfotcl_2.0.co_2.xml
  13. https://firinga.com/systeme-guambe.html
  14. https://www.eumetsat.int/
  15. https://www.metoc.navy.mil/jtwc/jtwc.html
  16. https://www.arc.int/sites/default/files/2023-03/Post-Event%20Briefing_Mozambique_GUAMBE_EN_02032021.pdf
  17. http://www.meteo.fr/temps/domtom/La_Reunion/webcmrs9.0/anglais/activiteope/bulletins/bms/BMSA_202102180000_GUAMBE.pdf
  18. http://www.meteo.fr/temps/domtom/La_Reunion/webcmrs9.0/anglais/activiteope/bulletins/bms/BMSA_202102191200_GUAMBE.pdf
  19. http://www.meteo.fr/temps/domtom/La_Reunion/webcmrs9.0/anglais/activiteope/bulletins/cmrs/CMRSA_202102200600_GUAMBE.pdf
  20. http://www.meteo.fr/temps/domtom/La_Reunion/webcmrs9.0/anglais/activiteope/bulletins/cmrs/CMRSA_202102210000_GUAMBE.pdf
  21. http://www.meteo.fr/temps/domtom/La_Reunion/webcmrs9.0/anglais/activiteope/bulletins/cmrs/CMRSA_202102220000_EX-GUAMBE.pdf
  22. https://www.sciencedirect.com/science/article/pii/S2212094724000847
  23. http://kanhye.com/weather/guambe-moderate-tropical-storm-7th-of-south-indian-ocean-2020-2021
  24. https://www.gdacs.org/report.aspx?eventid=1000770&episodeid=5&eventtype=TC
  25. https://www.africanparks.org/preliminary-results-cause-death-111-dolphins-bazaruto-archipelago-national-park-province-inhambane
  26. https://indocet.org/en/mass-standing-of-spinner-dolphins-south-of-mozambique-feb-2021/
  27. https://www.bbc.com/news/world-africa-56181298
  28. https://clubofmozambique.com/news/mozambique-low-tide-among-causes-of-mass-dolphin-deaths-in-bazaruto-inhambane-aim-report-185895/
  29. https://www.gdacs.org/report.aspx?eventtype=TC&eventid=1000770
  30. https://documents1.worldbank.org/curated/en/099033125114090159/pdf/P165704-513cafec-d717-4614-be15-ce24da25b1fc.pdf
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