Disruption of the water cycle in Haiti

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In Haiti, the disruption of the water cycle remains a major environmental challenge, affecting biodiversity and the daily lives of the country's inhabitants. The problem has multiple causes, including the proliferation of shantytowns and the absence of a comprehensive urban development policy. Global warming is one of the main causes of this problem, [1] faced with one of the most disastrous economic, social and political situations on the planet, Haiti is unable to implement an urban development policy. [2] On the other hand, deforestation encourages natural disasters. [3] Thus, the disruption of the water cycle remains a lasting threat to the country's development. [4]

Contents

Hydrological context in Haiti

Located in the Caribbean, Haiti is exposed to a considerable ecological imbalance, characterized by catastrophic floods associated with torrential rains and hurricanes, devastating earthquakes, extreme climatic and meteorological variations that disrupt the water cycle. These problems are exacerbated by deforestation, soil degradation and unsustainable agricultural practices. [5] Climate change, pollution and deforestation are the main causes of water cycle disruption [6] in cities and slums. These causes include an increase in ocean water temperature, and a considerable reduction in the quantity of water available at groundwater level. [2]

Environmental impact

Climate change is often described as one of the most pressing environmental challenges we face worldwide. [7] Long-term changes in temperature and precipitation are often accompanied by heat waves and intense rainfall, [8] increasing the risk of flooding, [7] especially in Caribbean countries such as Haiti.

Floods, droughts and the degradation of aquatic ecosystems are examples of the effects of disruption of the water cycle. [9] Shortages of drinking water also aggravate public health problems.

Floods, torrential rains, droughts, changes in the frequency and intensity of precipitation and water scarcity are just some of the consequences of these disturbances. [10] Important steps can be taken to reduce these disturbances, such as water conservation, protecting aquatic ecosystems, reducing pollution and promoting sustainable management of water resources, reforestation to preserve watersheds, improving agricultural techniques to reduce erosion, and adopting more efficient technologies for water management.

Climatic disturbances are also the cause of numerous infectious diseases, including vector-borne diseases transmitted by blood-sucking arthropods such as dengue fever, Zika, chikungunya and malaria. [7]

Climate change is often described as one of the most pressing environmental challenges challenges we face worldwide.

Long-term changes in temperature and precipitation are often accompanied by heat waves heat waves and intense rainfall, increasing the risk of flooding, particularly in countries Caribbean countries such as Haiti. [11]

Consequences

Disruption of the water cycle has a greater impact on physical ecosystems than temperature variations. ecosystems, which are sensitive to changes in hydro-climatic conditions. Precipitation intensity and physico-chemical water conditions at Lake Azuei in Haiti Azuei in Haiti can vary according to the natural abundance, composition and concentrations of concentrations of mineralogical elements in the sediments. [12]

Human activities such as agricultural practices and changes in land cover caused by deforestation caused by deforestation have modified the land around Lake Azuei. [13]

Floods, droughts and the degradation of aquatic ecosystems are examples of the effects disruption of the water cycle. [14] The shortage of drinking water also aggravates public health problems.

Floods, torrential rains, droughts, changes in the frequency and intensity of precipitation and water scarcity are just some of the consequences of these changes and intensity of precipitation and water scarcity are just some of the consequences of these disruptions disturbances. [10]

In addition, important measures can be taken to reduce these disturbances, such as water conservation, protection of aquatic ecosystems, reduction of pollution and promotion of sustainable management of water resources, reforestation to preserve watersheds, improved watersheds, improving agricultural techniques to reduce erosion and adopting more efficient technologies for water management.

Related Research Articles

<span class="mw-page-title-main">Deforestation</span> Conversion of forest to non-forest for human use

Deforestation or forest clearance is the removal and destruction of a forest or stand of trees from land that is then converted to non-forest use. Deforestation can involve conversion of forest land to farms, ranches, or urban use. About 31% of Earth's land surface is covered by forests at present. This is one-third less than the forest cover before the expansion of agriculture, with half of that loss occurring in the last century. Between 15 million to 18 million hectares of forest, an area the size of Bangladesh, are destroyed every year. On average 2,400 trees are cut down each minute. Estimates vary widely as to the extent of deforestation in the tropics. In 2019, nearly a third of the overall tree cover loss, or 3.8 million hectares, occurred within humid tropical primary forests. These are areas of mature rainforest that are especially important for biodiversity and carbon storage.

<span class="mw-page-title-main">Drought</span> Period with less precipitation than normal

A drought is a period of drier-than-normal conditions. A drought can last for days, months or years. Drought often has large impacts on the ecosystems and agriculture of affected regions, and causes harm to the local economy. Annual dry seasons in the tropics significantly increase the chances of a drought developing, with subsequent increased wildfire risks. Heat waves can significantly worsen drought conditions by increasing evapotranspiration. This dries out forests and other vegetation, and increases the amount of fuel for wildfires.

<span class="mw-page-title-main">Wetland</span> Type of land area that is flooded or saturated with water

A wetland is a distinct semi-aquatic ecosystem whose groundcovers are flooded or saturated in water, either permanently, for years or decades, or only seasonally. Flooding results in oxygen-poor (anoxic) processes taking place, especially in the soils. Wetlands form a transitional zone between waterbodies and dry lands, and are different from other terrestrial or aquatic ecosystems due to their vegetation's roots having adapted to oxygen-poor waterlogged soils. They are considered among the most biologically diverse of all ecosystems, serving as habitats to a wide range of aquatic and semi-aquatic plants and animals, with often improved water quality due to plant removal of excess nutrients such as nitrates and phosphorus.

<span class="mw-page-title-main">Tropical forest</span> Generic forest in the tropics

Tropical forests are forested ecoregions with tropical climates – that is, land areas approximately bounded by the tropics of Cancer and Capricorn, but possibly affected by other factors such as prevailing winds.

<span class="mw-page-title-main">Environmental degradation</span> Any change or disturbance to the environment perceived to be deleterious or undesirable

Environmental degradation is the deterioration of the environment through depletion of resources such as quality of air, water and soil; the destruction of ecosystems; habitat destruction; the extinction of wildlife; and pollution. It is defined as any change or disturbance to the environment perceived to be deleterious or undesirable. The environmental degradation process amplifies the impact of environmental issues which leave lasting impacts on the environment.

<span class="mw-page-title-main">Pantanal</span> Tropical wetland in Brazil, Bolivia and Paraguay

The Pantanal is a natural region encompassing the world's largest tropical wetland area, and the world's largest flooded grasslands. It is located mostly within the Brazilian state of Mato Grosso do Sul, but it extends into Mato Grosso and portions of Bolivia and Paraguay. It sprawls over an area estimated at between 140,000 and 195,000 km2. Various subregional ecosystems exist, each with distinct hydrological, geological, and ecological characteristics; up to 12 of them have been defined.

<span class="mw-page-title-main">Land degradation</span> Gradual destruction of land

Land degradation is a process where land becomes less healthy and productive due to a combination of human activities or natural conditions. The causes for land degradation are numerous and complex. Human activities are often the main cause, such as unsustainable land management practices. Natural hazards are excluded as a cause; however human activities can indirectly affect phenomena such as floods and wildfires.

<span class="mw-page-title-main">Disturbance (ecology)</span> Temporary change in environmental conditions that causes a pronounced change in an ecosystem

In ecology, a disturbance is a temporary change in environmental conditions that causes a pronounced change in an ecosystem. Disturbances often act quickly and with great effect, to alter the physical structure or arrangement of biotic and abiotic elements. A disturbance can also occur over a long period of time and can impact the biodiversity within an ecosystem.

<span class="mw-page-title-main">Environmental issues in Haiti</span>

Environmental issues in Haiti include a historical deforestation problem, overpopulation, a lack of sanitation, natural disasters, and food insecurity. The major reasons for these environmental issues are corruption, human exploitation, and the embezzlement of taxpayers' funds for personal gains. In addition, there is not sufficient protection or management of the country's natural resources. Other environmental issues, such as decreases in precipitation and more severe natural disasters, will likely arise in Haiti as a result of climate change. Experts agree that Haiti needs to adopt new policies to address both the issues that already exist and to prepare for the effects of climate change.

<span class="mw-page-title-main">Temperate deciduous forest</span> Deciduous forest in the temperate regions

Temperate deciduous or temperate broad-leaf forests are a variety of temperate forest 'dominated' by deciduous trees that lose their leaves each winter. They represent one of Earth's major biomes, making up 9.69% of global land area. These forests are found in areas with distinct seasonal variation that cycle through warm, moist summers, cold winters, and moderate fall and spring seasons. They are most commonly found in the Northern Hemisphere, with particularly large regions in eastern North America, East Asia, and a large portion of Europe, though smaller regions of temperate deciduous forests are also located in South America. Examples of trees typically growing in the Northern Hemisphere's deciduous forests include oak, maple, basswood, beech and elm, while in the Southern Hemisphere, trees of the genus Nothofagus dominate this type of forest. Temperate deciduous forests provide several unique ecosystem services, including habitats for diverse wildlife, and they face a set of natural and human-induced disturbances that regularly alter their structure.

<span class="mw-page-title-main">Natural disasters in India</span>

Natural calamities in India, many of them related to the climate of India, causes of the massive losses of life and property. Droughts, flash floods, cyclones, avalanches, landslides brought by torrential rains, and snowstorms pose the greatest threats. A natural disaster might be caused by earthquakes, flooding, volcanic eruption, landslides, hurricanes etc. In order to be classified as a disaster, it will need to have a profound environmental effect and/or human loss and frequently incurs a financial loss. Other dangers include frequent summer dust storms, which usually track from north to south; they cause extensive property damage in North India and deposit large amounts of dust and dirt from arid regions. Hail is also common in parts of India, causing severe damage to standing crops such as rice and wheat and many more crops and effects many people.

A drought refuge is a site that provides permanent fresh water or moist conditions for plants and animals, acting as a refuge habitat when surrounding areas are affected by drought and allowing ecosystems and core species populations to survive until the drought breaks. Drought refuges are important for conserving ecosystems in places where the effects of climatic variability are exacerbated by human activities.

<span class="mw-page-title-main">Climate change in South Korea</span>

Climate change has led to extreme weather events in South Korea that affects: social, economy, industry, culture, and many other sectors. South Korea is experiencing changes in climate parameters. Such parameters include annual temperature, rainfall amounts, and precipitation.

Climate change disproportionately impacts indigenous peoples around the world when compared to non-indigenous peoples. These impacts are particularly felt in relation to health, environments, and communities. Some Indigenous scholars of climate change argue that these disproportionately felt impacts are linked to ongoing forms of colonialism. Indigenous peoples found throughout the world have strategies and traditional knowledge to adapt to climate change, through their understanding and preservation of their environment. These knowledge systems can be beneficial for their own community's adaptation to climate change as expressions of self-determination as well as to non-Indigenous communities.

<span class="mw-page-title-main">Climate change in Rhode Island</span> Climate change in the US state of Rhode Island

Climate change in Rhode Island encompasses the effects of climate change, attributed to man-made increases in atmospheric carbon dioxide, in the U.S. state of Rhode Island.

<span class="mw-page-title-main">Climate change in Malaysia</span> Impact of global warming on the south-east Asian country and mitigating and adaptating to it

Climate change is having a considerable impact in Malaysia. Increasing temperatures are likely to greatly increase the number of heatwaves occurring annually. Variations in precipitation may increase the frequency of droughts and floods in various local areas. Sea level rise may inundate some coastal areas. These impacts are expected to have numerous environmental and socioeconomic effects, exacerbating existing environmental issues and reinforcing inequality.

<span class="mw-page-title-main">Climate change in Indonesia</span> Emissions, impacts and responses of Indonesia

Due to its geographical and natural diversity, Indonesia is one of the countries most susceptible to the impacts of climate change. This is supported by the fact that Jakarta has been listed as the world's most vulnerable city, regarding climate change. It is also a major contributor as of the countries that has contributed most to greenhouse gas emissions due to its high rate of deforestation and reliance on coal power.

<span class="mw-page-title-main">Effects of climate change on the water cycle</span>

The effects of climate change on the water cycle are profound and have been described as an intensification or a strengthening of the water cycle. This effect has been observed since at least 1980. One example is when heavy rain events become even stronger. The effects of climate change on the water cycle have important negative effects on the availability of freshwater resources, as well as other water reservoirs such as oceans, ice sheets, the atmosphere and soil moisture. The water cycle is essential to life on Earth and plays a large role in the global climate system and ocean circulation. The warming of our planet is expected to be accompanied by changes in the water cycle for various reasons. For example, a warmer atmosphere can contain more water vapor which has effects on evaporation and rainfall.

Water stress is increasingly affecting urbanization. Water stress arises through slum development, anarchic construction, water scarcity, the absence of financial structures, the absence of basic structures, the absence of infrastructure such as roads, bridges, sidewalks, signs, markets, schools, etc., can sometimes hinder the productivity of certain cities. Unfortunately, this phenomenon affects even the largest cities in the world; in 2018, 300,000 were recorded in the world, housing around 40% of the world's urban population.

Climate change effects on tropical regions includes changes in marine ecosystems, human livelihoods, biodiversity, degradation of tropical rainforests and effects the environmental stability in these areas. Climate change is characterized by alterations in temperature, precipitation patterns, and extreme weather events. Tropical areas, located between the Tropic of Cancer and the Tropic of Capricorn, are known for their warm temperatures, high biodiversity, and distinct ecosystems, including rainforests, coral reefs, and mangroves.

References

  1. "4.3.17. APD totale dans le secteur de l'eau & 4.3.18. 10 premiers bénéficiaires en 2005 & 4.3.19. APD dans le secteur de l'eau par sous-secteur en 2005 & 4.3.20. Engagements d'APD dans le secteur de l'eau". doi:10.1787/413545541481 . Retrieved 1 May 2024.{{cite journal}}: Cite journal requires |journal= (help)
  2. 1 2 Jérôme, Yolette; Emmanuel, Evens; Saffache, Pascal (31 March 2021). "Global water governance and water rights through the prism of Canaan, a slum apart in Haiti". Aqua-LAC. 13 (1): 34–44. doi:10.29104/phi-aqualac/2021-v13-1-03.
  3. Schmitt, Anne; Renaud, Jean-Nicolas (30 June 2015). "Un héroïsme républicain". Annales de Bretagne et des pays de l'Ouest. 122–2 (122–2): 99–117. doi:10.4000/abpo.3064. ISSN   0399-0826.
  4. "Haiti earthquake devastation partly caused by deforestation". Physics Today (3). 2010. doi:10.1063/pt.5.024165. ISSN   1945-0699.
  5. Fayazi, Mahmood; Bornstein, Lisa (2021), "The links between vulnerability, poverty, and natural hazards: A focus on the impacts of globalization trends", Enhancing Disaster Preparedness, Elsevier, pp. 259–272, doi:10.1016/b978-0-12-819078-4.00014-9, ISBN   978-0-12-819078-4 , retrieved 1 May 2024
  6. Emmanuel, Evens (23 March 2007). Faire face à la pénurie d'eau. Université Quisqueya. doi:10.54226/uniq.socenv.35525_c0 (inactive 1 November 2024). ISBN   978-99935-693-5-0.{{cite book}}: CS1 maint: DOI inactive as of November 2024 (link)
  7. 1 2 3 Balthazard-Accou, Ketty; François Millien, Max; Michel, Daphnée; Jean, Gaston; Telcy, David; Emmanuel, Evens (15 December 2021), Otsuki, Takemi (ed.), "Vector-Borne Diseases and Climate Change in the Environmental Context in Haiti", Environmental Health, IntechOpen, doi:10.5772/intechopen.96037, ISBN   978-1-83968-720-4 , retrieved 1 May 2024
  8. Kornei, Katherine (21 May 2020). "As the Planet Warms, Intense Storms Become More Common". Eos. 101. doi: 10.1029/2020EO144483 . ISSN   2324-9250.
  9. "Introduction", Impact of Climate Change on Water and Health, CRC Press, pp. 3–29, 18 December 2012, doi:10.1201/b14323-3 (inactive 4 November 2024), ISBN   978-1-4665-7749-7 , retrieved 1 May 2024{{citation}}: CS1 maint: DOI inactive as of November 2024 (link)
  10. 1 2 Jérôme, Yolette; Alexis, Magline; Telcy, David; Saffache, Pascal; Emmanuel, Evens (15 December 2021), Otsuki, Takemi (ed.), "The Challenge of Water in the Sanitary Conditions of the Populations Living in the Slums of Port-au-Prince: The Case of Canaan", Environmental Health, IntechOpen, doi:10.5772/intechopen.96321, ISBN   978-1-83968-720-4 , retrieved 1 May 2024
  11. Apply, Ammcise; Corbet, Alice; Déroy, Julien; Raymond, Lucainson; Emmanuel, Evens (15 August 2022). "Représentations sociales du stress chez des déplacés climatiques du quartier Nan Orèl, Nord-Ouest d'Haïti". Études caribéennes (in French) (52). doi: 10.4000/etudescaribeennes.24487 . ISSN   1779-0980.
  12. Noncent, David; Sifeddine, Abdelfettah; Emmanuel, Evens; Cormier, Marie-Helene; Briceño-Zuluaga, Francisco J; Mendez-Millan, Mercedes; Turcq, Bruno; Caquineau, Sandrine; Valdés, Jorge; Bernal, Juan Pablo; King, John W; Djouraev, Irina; Cetin, Fethiye; Sloan, Heather (July 2023). "Hydroclimate reconstruction during the last 1000 years inferred from the mineralogical and geochemical composition of a sediment core from Lake-Azuei (Haiti)". The Holocene. 33 (7): 816–826. Bibcode:2023Holoc..33..816N. doi:10.1177/09596836231163512. ISSN   0959-6836.
  13. Noncent, David; Sifeddine, Abdelfettah; Emmanuel, Evens; Cormier, Marie-Helene; Briceño-Zuluaga, Francisco J.; Valdés, Jorge; Mendez-Millan, Mercedes; Turcq, Bruno; Bernal, Juan Pablo (December 2023). "A 1000-year record of paleoclimate and paleoenvironment change inferred from sedimentary organic matter in Lake Azuei, Haiti". Palaeogeography, Palaeoclimatology, Palaeoecology. 632: 111845. Bibcode:2023PPP...63211845N. doi:10.1016/j.palaeo.2023.111845. ISSN   0031-0182.
  14. Soubeyroux, Jean-Michel (25 October 2023). "L'impact du changement climatique sur le cycle de l'eau à partir du nouveau portail DRIAS-Eau". Annales des Mines – Responsabilité et environnement. 112 (4): 13–17. doi:10.3917/re1.112.0013. ISSN   1268-4783.
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