Ecosystem Crises Interactions. Merrill Singer. Читать онлайн. Newlib. NEWLIB.NET

Автор: Merrill Singer
Издательство: John Wiley & Sons Limited
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Жанр произведения: Физика
Год издания: 0
isbn: 9781119570011
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researchers, but far from all (e.g., Wheeler & Meier 2000), find Mayr’s (1942) definition to be the most useful for their efforts to grapple with the biodiversity of organisms, past and present. However, as stressed in this book, environments are changing, and as a consequence, species are moving. The geographic barriers that once divided identified species and minimized their chances of interbreeding are collapsing. Across the globe, new hybrid species are being documented among toads, sharks, butterflies, bears, and trout, the offspring of interbreeding of species newly brought together by climate change. Warmer temperatures have facilitated grizzly bear and polar bear encounters, leading to hybrids called either pizzlys or grolar bears. Among birds, a similar development has occurred among golden‐winged warblers and blue‐winged warblers. One unexpected consequence of human impact on ecosystems is thus changes in planetary speciation.

      2.3.2.3 The Convention on Biological Diversity

      Inherently, biodiversity is multidimensional, encompassing many aspects of the variability of life on Earth, including the taxonomic classification of species, impacts of species on one another and on the abiotic environment, the evolutionary relatedness of species, the genetic make‐up of organisms, and landscape characteristics.

      Source: Modified from World Wildlife Fund, Living Planet Report 2018. Retrieved from: https://www.worldwildlife.org/pages/living‐planet‐report‐2018.

Cultural resourcesEmotional and physical healthRecreationEsthetic valuesSpiritual values
ProvisionsFoodWaterMedicinal resourcesOxygenMaterial resources
ProcessesNutrient cyclingPhotosynthesisSoil formation
RegulationsAir qualityClimate and extreme eventsWaterErosionPollination

      2.3.2.4 Bioadversity

      Biodiversity “is changing across the world and this change is mostly negative” (Turak et al. 2017) from the standpoint of health across species (Butchart et al. 2010), a pattern known as bioadversity. A growing body of research, for example, indicates that among many species there are shifting habitat ranges, seasonal activities, life cycle events (e.g., the time of emergence of leaves and flowers or the arrival dates of migratory birds), predator–prey interactions, and migratory patterns (Forcada & Hoffman 2014; Zhang et al. 2014). Change in these and other features is not new. Since they appeared on the planet, plants and animals have reacted to environmental changes by adapting in various ways (e.g., changing color, body shape, behavior), migrating to new areas with different conditions, or, if unable to adapt successfully, going extinct. Which of these possibilities lie ahead for the current inhabitants of Earth, including ourselves? According to Nogués‐Bravo et al. (2018), “How individual species and entire ecosystems will respond to future climate change are among the most pressing questions facing ecologists.” But the issue is not just climate change—the same applies to species and entire ecosystem responses to other adverse anthropogenic environmental modifications.

      With regard to human health, maintaining biodiversity is of vital importance. Human medicines often are first discovered in wild‐dwelling species. So too are various pathogens and disease vectors, which can only be brought under control by studying their behaviors and habitats. As Chivian (1997, p. 8) maintains:

      The study of species and biodiversity may be the best means we have for recognizing future dangers to human health from global environmental degradation … [W]e must focus much greater attention on biodiversity loss, which looms as a slowly evolving, potential medical emergency of unprecedented proportions, still largely unappreciated by policymakers and the public.

      Because “global biological diversity is declining in the face of numerous pressures” (Wetzel et al. 2017, p. 78), and this loss has grave implications, since the early 1970s biodiversity has emerged as a critical and heated scientific and political issue. In the case of sharks, their potential relevance to human health goes beyond the issue of cancer and includes their ability to heal quickly from wounds and resist infections. By sequencing the sharks’ genome, researchers are trying to identify which genes contribute to these abilities and translate this finding into advances in wound‐healing human medicines. Already, a skin‐graft device called the Integra Omnigraft Dermal Regeneration Matrix (Omnigraft) has been approved by the U.S. Food and Drug Administration (FDA 2016). This material, which uses a combination of silicone, cow collagen, and shark cartilage, is used to help heal certain life‐threatening burns and diabetic foot ulcers. The medical potential