Tropical ecology

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Tropical ecology is the study of the relationships between the biotic and abiotic components of the tropics, or the area of the Earth that lies between the Tropic of Cancer and the Tropic of Capricorn (23.4378° N and 23.4378° S, respectively). The tropical climate experiences hot, humid weather and rainfall year-round. While many might associate the region solely with the rainforests, the tropics are home to a wide variety of ecosystems that boast a great wealth of biodiversity, from exotic animal species to seldom-found flora. Tropical ecology began with the work of early English naturalists and eventually saw the establishment of research stations throughout the tropics devoted to exploring and documenting these exotic landscapes. The burgeoning ecological study of the tropics has led to increased conservation education and programs devoted to the climate.

Origins

The roots of tropical ecology can be traced to the voyages of European naturalists in the late 19th and early 20th centuries. Men who might be considered early ecologists such as

Alexander Von Humboldt voyaged throughout South America, from Venezuela through the Andes Mountains. There, Humboldt and his associate, Aimé Bonpland, stumbled upon an interesting ecological concept. As the pair traveled from the base of the mountains to the peak, they noticed that the species of plants and animals would change according to which climatic zone they were in relative to their elevation. This simple discovery aided the theorization of the life zone concept, which would eventually give way to the popularization of the concept of ecosystems.[2] Another voyager, William Beebe, researched many species of birds in tropical locations and published a large gamut of academic works on his findings that greatly shaped the field of ornithology. According to his biographer Carol Grant Gould, "The effects William Beebe had on science... are enormous and lasting. He made an effective transition between the Victorian natural historian, content to collect and classify the natural world, and the modern experimental biologist."[3] The work of these early pioneers not only lead to an increased interest in the burgeoning field of tropical ecology, but also had far reaching implications for scientific study on the whole. In recent years, notable changes have arose with tropical savannah ecosystems being one of these them since it has become a significant global biome but at the price of tropical forest ecosystems.[4]

Conservation and management

Tropical blossom in the Ecuadorian rainforest

Tropical regions are hotspots for biodiversity, so conservation efforts are important to focus on in these places. Many species can be observed and conserved in the tropics.[5] The tropics receive a lot of attention when it comes to conservation and management due to increased public awareness of the significance of tropical ecosystems and the delicacy with which they must be treated. For instance, in tropical grassy biomes it was determined that the fauna of certain areas or regions have been observed to have multiple endemic species which provide some insight into the age and origin of particularly tropical grassy systems.[6] Conservation efforts in the tropics can be difficult to start, as many communities have developed a culture around the ecology in many locations, and in many cases, people make their livelihood off some aspect of the ecology.[5] Conservation measures have multiple benefits to the ecosystem and the community. There are health, economic, and environmental benefits to conserving tropical ecosystems, and conserving these benefits requires communication between local people, governments, and stakeholders. Communication between these groups facilitates the most benefit from conserving tropical ecosystems.[5] Therefore, losing tropics would result in multiple biodiversity species being lost and local communities, natural processes and even specific organisms that rely on them would face repercussions.[7]

The rainforests are subjects of heightened attention due to the excessive deforestation and logging that occurs in those ecosystems. As well as anthropogenic disturbances such as fires, hunting and trapping of organisms that play key roles in tropical biodiversity and natural processes.

INBio signed a deal with the pharmaceutical behemoth Merck that called for cooperation between the two entities in discovering and exploring new natural treatments in the Costa Rican rainforests. However, humans should tread carefully as to not cause species loss as a result of overexploitation, since human impacts have been a leading contributor to disturbances and modified land.[12]
Ecologists, government officials, and corporations alike praised this decision as decisive progress in an ongoing struggle to work cooperatively in utilizing tropical biodiversity while ensuring the stability of tropical ecosystems.

Historical biogeography of the tropics

Tropical ecology has changed over time as a result of dynamic biogeography. Biogeography is the geographical distribution of plants and animals, and has a large impact on the course of evolution. Understanding the historical biogeography of the tropics is important for learning about the origins of biodiversity. Evolution around the world is impacted by the changing species distribution across tropical biomes because many species can be traced back to tropical ancestors. Species evolve rapidly in the tropics, changing the habitat ecology. The theory of a latitudinal species gradient suggests that species richness increases towards the equator for most taxa. This holds true for marine and terrestrial species, northern and southern located species, ectotherms and endotherms and active and passive dispersing species.[13] By turning to the biogeographical history of the tropics, we gain a deeper understanding of how the current tropical ecology developed.

Biogeography is related to the physical conditions and geography of the habitat. The temperature and geographical area of the tropics enforce the latitudinal species gradients by facilitating higher rates of speciation. Tropical biomes are defined as warm, moist habitats, and cover the largest amount of the terrestrial area on earth. Tropical species do not face the evolutionary pressure of harsh climates experienced in northern and southern regions. Therefore, tropical adaptations are largely influenced by biotic interactions as opposed to climate pressures. Consequently, tropical evolution has been described as a “creative process” among biota rather than a survival process against the climate. Some hypotheses also suggest that the higher tropical temperatures affect speciation at the molecular level, leading to higher mutation rates, faster generation times and therefore faster rates of genetic divergence. The West Pacific Coral Triangle, a tropical ocean region, is the global peak of marine diversity because of its combination of warm temperatures, large area, minimal seasonal climate variation, diverse habitat types, important biotic relationships and influx of taxi from other tropical regions because of a complex mainland-island structure and ocean currents.[14]

Tropical glacial and interglacial periods

The geography and biology of the tropics has the longest history of any biome found on Earth today. Tropical glacial and interglacial cycles caused by a fluctuating climate have induced speciation in the tropics, explaining its outstanding ecological diversity. Nevertheless, the tropics have experienced various climatic disturbances over their long history that have shaped present patterns of diversity.

The

phylogenies of tropical clades
. The consistency of tropical environments constitutes species composition with more age variance and diversity.

The Quaternary glacial cycles that occurred during the Pleistocene era were the most recent major climate disturbance in the tropics. Glaciers caused the decline of life forms at high altitudes because they remained solid for the longest consecutive time at high altitudes. Tropical environments became interspersed by glaciers and dry climates. This fragmentation resulted in speciation due to geographic isolation, steepening the latitudinal species gradient.[16] Today, Peru contains 70% of all tropical glacial area, hosting the two largest tropical glaciers: the Quelccaya Ice Cap and the Nevado Coropuna ice cap. Monitoring the shrinkage of these glaciers is important for understanding the rate of glacial melt. From 1998 to 2020, 26% of the Quelccaya ice cap melted and the average altitude of the ice cap rose from 5389 meters to 5449 meters.[17] The degree of change in tropical glacial areas is rapidly accelerating. Future research aims to understand current glaciation trends in the tropics in order to give context to the relationship between tropical ecology and climate change.

Significance of ecology in the tropics

Vicuña Atacama, Chile

  It is advantageous for ecologists and naturalists to study plants, animals, and ecosystems in the tropical climate for a number of reasons. For one, the tropics are home to a wide array of ecosystems, from rainforests to deserts. In that sense, the tropics are a great place for ecologists to conduct diverse studies without traveling too far from a research center. With the large amount of biodiversity present in the tropics, it is a good access point for research. Most research in the tropics has been done on species richness, however more research needs to be done on other aspects of the tropics.[18] For example, studying tropical plant communities could be used to examine their impacts or responses to elevated carbon dioxide.[19]Secondly, the temperature in the tropics rarely hinders plant growth and activity; flora can be studied nearly year round, as cold weather never stunts plant activity. Which has proven to be useful in observing things such as flowering rhythmicity and leaf change.[20]In addition to climatic reasons, the traditionally sparse population of the tropics has greatly aided research in the area, as the landscape is largely untainted by mankind and machinery. While this may not be the case so much as of late, the vast amounts of untapped land in the tropics still make for prime research territory. Another example would be how studying lowland tropical rainforest can provide researchers with some insight into how hydrological and geomorphological processes have significant impacts on the ecosystem.[21] Finally, the tropics are valuable to ecologists because they are home to some of the oldest lands on Earth, including Chile's Atacama Desert and Australia's Peneplain. Thus, plant communities have been growing and evolving for millions of uninterrupted years, which makes for interesting study. That being said, while it may be advantageous to study ecology in the tropics, this is not to say that it is without difficulty. The ecosystems native to the tropics and the biodiversity they boast are dwindling. Half of the species located in biodiversity hotspots are in danger of extinction, and many of the plants with potential medicinal uses are dying off. In this sense, ecological study in the tropics is not as easily conducted as it once was; this is the reason why much of the modern ecological work in the field is aimed towards conservation and management as opposed to general research.

See also

References

External links