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Contrasts or complements of the two articles
The article that I will compare or complement with the assigned article is the one named ‘Ecosystem restructuring along the Great Barrier Reef following mass coral bleaching.’ The article comes from the nature journal. The article complements the assigned one in a way that if elucidates the issue of mass coral bleaching just like the assigned one. The two articles contrast in a way that the first article focuses on mass bleaching of corals in the Anthropocene while the second one focuses on ecosystem restructuring along the Great Barrier Reef as a result of mass bleaching. Upon reading the two articles, it is evident that coral bleaching takes place when corals are stressed by a modification in environmental conditions. They act in response by purging the interdependent algae that dwell in their tissues and then turn entirely white. The interdependent algae, referred to as zooxanthellae, are photosynthetic and give their host coral nourishment in return for fortification. The second article complements the assigned article in a way that coral bleaching is a common reaction of a coral in stress, and insulated colonies or small spots of bleached coral are not essentially a reason for concern. Both articles emphasize climate change as the leading cause of coral bleaching. A warming planet signifies a warming ocean and an alteration in water temperature—as slight as 2 degrees.
The assigned article contrasts with the second article in a way that it gives information on how coral focuses on anthropogenic climate warming. According to it, coral bleaching occurs when stressful conditions lead to the expulsion of the algal partner from the coral. Before anthropogenic climate warming, such occurrences were somehow not common, allowing for the reef between events (Hughes et al., 2018). The assigned article further asserts that the normal interlude between bleaching events is now not more than half of what was before. Such slight repossession windows do not permit for complete recovery. In addition, warming proceedings, for instance, El Niño, are warmer than previously, as are overall ocean conditions. On the other hand, according to the second article, global warming is significantly altering various coral reef ecological units by an increasing magnitude and frequency of mass bleaching events. How local effects gage up across impacted regions rely on many factors, including interactions between taxa, patchiness in coral mortality, and metabolic impacts of great temperatures on reef-dwelling species populations.
The second article uses data from before and after the 2016 mass bleaching event to assess environmental alterations in corals, mobile invertebrates, fishes, and algae at 186 locations along the complete latitudinal span of the western Coral Sea and the Great Barrier Reef. On the other hand, in the assigned article, analysis is done on the bleaching records at 100 universally dispersed reef sites from 1980 to 2016 (Stuart et al., 2016). The average reappearance period between pairs of severe bleaching occasions has reduced gradually ever since 1980. The second article complements the assigned one supporting the fact that most corals, like other cnidarians, have symbiotic algae within their gastro dermal cells. In response, the algae generate oxygen and aid the coral to eliminate wastes. Most significantly, they provide the coral with biological products of photosynthesis. Raised seawater temperatures are the leading basis of mass bleaching events. Coral bleaching’s main events have happened between 1979 and 1990, with the connected coral mortality impacting reefs in every part of the universe.
Reference
Hughes, T. P., Anderson, K. D., Connolly, S. R., Heron, S. F., Kerry, J. T., Lough, J. M., … & Wilson, S. K. (2018). Spatial and temporal patterns of mass bleaching of corals in the Anthropocene. Science, 359(6371), 80-83.
https://science.sciencemag.org/content/359/6371/80
Stuart-Smith, R. D., Brown, C. J., Ceccarelli, D. M., & Edgar, G. J. (2018). Ecosystem restructuring along the Great Barrier Reef following mass coral bleaching. Nature, 560(7716), 92-96.
https://doi.org/10.1038/s41586-018-0359-9
