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

Автор: Merrill Singer
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Физика
Год издания: 0
isbn: 9781119570011
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from a universal common ancestor (Theobald 2010). From those shared roots have grown kelp and elephants, amoebae and T. rex, sequoias and humans. Of special concern in this book is the influence of humans on global biodiversity and the diversity of life within regional or local ecosystems.

      Drawing on botanical records and colonial diaries, the richness of biodiversity in a regional ecology, and its constriction at human hands, is aptly portrayed in Thomas Rainer & Claudia West’s (2016, p. 13) Planting in a Post‐Wild World: Designing Plant Communities for Resilient Landscapes:

      Imagine for a moment what it must have been like for the first European colonists arriving on the shores of [Massachusetts] … By all accounts, the landscape they encountered was a place teeming with diversity … Hundreds of species of birds flew over the coastline; tens of thousands of different plants covered the forests, and billions of oysters and clams filled the estuaries … Just beyond the coastal plain, chestnut trees—some nine stories tall—accounted for fully half of the canopy of the Piedmont. These giants showered the ground with their mast, sustaining black bears, deer, turkey, and other creatures.

      The question of how many species live on Earth is a fundamental one in science. Just under 2 million are currently identified, and the pace of discovery and naming is greater now than at any time during taxonomy’s 250‐year history. Yet we know there is a sizeable gap between the number of living species we know about and the actual number that exist. To help quantify global biodiversity, Mora et al. (2011) developed the hypothesis that the scientific assignment of species to higher‐level taxa such as phylum, class, order, family, and genus follows a consistent and predictable pattern that can be used to estimate the total number of species in a taxonomic group. They validated this idea using well‐studied taxa and then applied their findings to all lifeforms. They concluded that there are between 5.3 and 10 million species globally, not including species of bacteria and archaea that lack a membrane‐bound nucleus. Of this total, they calculate that between 2 and 2.4 million are aquatic. In other words, over 80 percent of existing species on land and over 91 percent in the ocean remain to be identified.

      Lest the smallest of lifeforms be ignored, researchers from the University of Queensland in Australia (Parks et al. 2017) carried out a study in which they sequenced all of the DNA in samples drawn from environmental and nonhuman gastrointestinal sources in order to focus on microbial populations from undersampled lineages. They reconstructed the individual genomes of 7280 new bacteria and 623 new archaea. Of these, about a third were new to science, warranting the creation of 17 new bacterial phylums and three new achaeal ones. These newly discovered organisms add to the nearly 70 000 bacterial and archaeal genomes held in public repositories.

      But the discoveries continue. In 2014, dental researchers (He et al. 2015) detected a very tiny bacterium, known as TM7x, that lives on the surface membrane of a larger bacterium, Actinomyces odontolyticus (or XH001), and parasitizes it. Both the host and the parasite live in human saliva. After attaching itself to its victim, the newly discovered bacterium draws nutrients out of the host. Eventually, holes form in the host’s surface membrane and its internal contents drain out, killing it. There is evidence that TM7x succeeds by overcoming and suppressing the immune response of XH001. Organisms like TM7x are referred to as microbial dark matter because biologists are unable to culture them in labs, which hinders their discovery and classification.

      Garnering more attention than parasites in aquatic environments are amphibians. Notably, about 25 percent of all known amphibian species were discovered only in recent years; by comparison, since 1993, the number of previously unknown mammal species that have been identified increased by 10 percent. There are three amphibians orders: Anura (frogs and toads), Caudata (newts and salamanders), and Gymnophiona (legless caecilians). The AmphibiaWeb (2019) database contains 8034 amphibian species, of which 7091 are frogs and toads, 731 are newts and salamanders, and 212 are caecilians. Since 1985, the total number of recognized amphibian species has increased by over 60 percent.

      While humans have traversed all terrestrial and many aquatic environments over the centuries, thousands of new plant and animal species are discovered every year. The Arizona State University International Institute for Species Exploration reported 16 969 new species (not including previously undocumented species of microbials) in the year 2006 alone (Stutz 2009). This was not an atypical year (International Institute for Species Exploration 2018). The Institute for Biodiversity Science and Sustainability at the California Academy of Sciences supports annual expeditions around the globe in search of new species. Academy scientists described 229 new plants and animals in 2018, including 120 wasps, 34 sea slugs, 28 ants, 19 fish (including a dazzling neon‐colored fish from deep beneath Brazilian waters), 1 sea horse (which was about the size of a jelly bean), 7 flowering plants, and 1 moss (California Academy of Sciences 2018). Each of these remarkable finds further enriches our understanding of the complexities and fragilities of life on Earth.