Tropical Marine Ecology. Daniel M. Alongi

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Название Tropical Marine Ecology
Автор произведения Daniel M. Alongi
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119568926



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her beautiful illustrations that have made this book much better than I had hoped and both my daughters for reminding me that there is indeed life after science. Of course, any errors are mine and I would be grateful for students, faculty, and other readers to bring any errors to my attention.

       Daniel M. Alongi, PhD

      Email: [email protected]

      1.1 Definition of the Tropics

      There is no standard definition of the tropics. It has been defined in so many ways, as a reflection of its complexity, that only an operational definition can suffice; there have been notable climatological and oceanographic exceptions to all definitions. No one definition meets with universal approval, and there have been many attempts to define it, first most simply, by the patterns of the trade winds of the “torrid zone” (Dampier 1699) to a rigid definition of the region between the Tropic of Capricorn and the Tropic of Cancer (Townsend 2012), that is, the most northerly and southerly position at which the sun may appear directly overhead at its zenith. In fact, the word ‘tropical’ comes from the Greek tropikos, meaning ‘turn’ referring to the fact that these latitudes mark where the sun appears to turn annually in its motion across the sky. Recent evidence indicates that the tropics have expanded due to climate change (Seidel et al. 2008).

      Other definitions have recognised that the boundaries of the tropics sensu lato do not equate with rigid zones and have classified the tropics on the basis of terrestrial vegetation (the Kӧppen‐Geiger system) or seasonal patterns in rainfall, where the zonation is identified as ‘humid,’ ‘wet and dry,’ and ‘dry.’ Such definitions are functional, but none fit our requirement for an ocean climate‐based scheme.

Schematic illustration of annual mean sea surface temperatures in the global ocean, 2005–2017.

      Source: Image retrieved via public access from the NASA Scientific Visualization Studio. https://sus.gsfc.nasa.gov/3652 (accessed 7 June 2020). © John Wiley & Sons.

      Spatial and temporal variations in rainfall and temperature are large in the tropics; daily thermal and precipitation changes increase away from the equator. The western boundaries of the tropical oceans are warmer, wetter, and more stable climatically than the eastern boundaries, caused by the asymmetrical form and unequal size of the ocean margins, which in turn strongly affect sea surface temperatures, currents, and nutrient regimes (Webster 2020) These geographic differences are of considerable ecological importance, influencing the distribution and abundance of shallow water habitats.

Hydrology Climatology
37% of world ocean area High and stable solar radiation
69.1% of freshwater discharge to the world ocean Absorbed solar radiation exceeds long‐wave radiation so net radiation balance is positive
Lower mean tidal amplitudes High and stable temperatures
Small Coriolis parameter in proximity to the equator Lowest and highest rates of evaporation and precipitation
Large Rossby radius Trade winds (easterlies and westerlies)
Weak rotational constraint on bottom boundary layer Absent/uncommon frontal storms within 5° of equator
Large buoyancy flux Interannual variation > seasonal variation
Wind‐produced homogenous layer deepest in equatorial waters Monsoons (dry–wet or arid): Asian, African, Indo‐Australian, and South American systems
DCRITICAL DEPTH > DWATER DEPTH Tropical ocean absorbs most incoming solar energy
Seasonal upwelling Tropical ocean‐atmospheric system is the heat engine of the global climate system
Permanently stratified thermoclines and haloclines; oxygen minimum layers Hadley Circulation distributes equatorial winds in the low latitudes
Salinity and pH highly variable; acidic and hypersaline conditions common Intertropical Convergence Zone, a belt of convective cloud about the equator. Zone of rising air and intense precipitation (accounts for 32% of global precipitation)
Estuarization of shelves by river plumes Indo‐Pacific Warm Pool, an oceanographic/climatological phenomenon in the western