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Marine Biology • Study of living organisms in the ocean • LIFE = ? – – – – Ability to capture, store, and transmit energy Ability to reproduce Ability to adapt to their environment NASA: A self-sustained chemical system capable of Darwinian evolution Evolution • Explains the unity and diversity of life • Charles Darwin and Alfred Wallace • Definition? – Change • Mechanism = natural selection – reproduction, mutation/variation, selection Diversity of Life •Likely between 612 million species total •Likely about 1 million marine species •2000 new marine species discovered each year • Land is more variable- leads to more species • Oceans more stable • Ex: temperature Classifying marine organisms • Pelagic (in water) – Plankton (drifters) – Nekton (swimmers) • Benthic (along the bottom) Life Cycle of a Squid Divisions of the Marine Environment Living in the Ocean: Advantage= Water everywhere •makes up large % of living organisms •supportive Living in the Ocean: Disadvantage= Hard to move •Streamlining in larger organisms Living in the Ocean: Advantage= Hard to move •Appendages to slow sinking in plankton Common Problem: Surface Area to Volume Ratios Primary Producers • aka autotrophs • Organisms that can capture solar energy and convert it to chemical energy by building organic compounds • Photosynthesis Fig. 12-2, p. 238 Primary Producers • Others use chemosynthesis – Much less common – Use the oxidation of inorganic compounds as energy source, – ex: bacteria use hydrogen sulfide at hydrothermal vents Cellular Respiration • Opposite of photosynthesis • Breakdown of food • All organisms Figure 13.1 Consumers • aka heterotrophs • Must consume (eat) other organisms Consumers • Primary consumers – Eat producers • Secondary Consumers – Eat primary consumers • These all are Trophic Levels Food webs • Complex representation of who eats who Primary Productivity • Refers to how active the producers are • grams of Carbon bound into organic material per square meter per year (gC/m2/y) Figure 13.18 Only 10% of “food” gets transferred to the next trophic level Figure 13.19 Ocean’s Primary Producers • Algae – in Kingdom Protista – Have chlorophyll but no vessels to conduct fluids – Unicellular = phytoplankton – pelagic – Multicellular = seaweed – benthic • Plants – Angiosperms = flowering plants The Pelagic Zone • Pelagic organisms are suspended in the water – Plankton = drifters • Phytoplankton= unicellular photosynthetic algae • Zooplankton = “animal” plankton – Nekton = swimmers Phytoplankton • 95% of ocean’s primary productivity • Mostly Single-celled organisms • Diatoms & Dinoflagellates Diatoms • Dominant (>5600 species) • Silica shell – two valves • Produce large portion of O2 in ocean and atmosphere Dinoflagellates • • • • Mostly autotrophs Most are free living (except zooxanthellae) Two whip-like flagella “Red tides” or HABs (Harmful Algal Blooms) Phytoplankton Distribution • Depends on: – light availability – nutrient concentration • Varies with: – Depth, Proximity to land, Location on the earth Phytoplankton Distribution • Compensation Depth – Where rate of photosynthesis = rate of respiration – Below this phytoplankton will die Phytoplankton Distribution • Higher near coast – Runoff – upwelling Figure 13.6 Phytoplankton Distribution Varies across the globe – How? Phytoplankton Distribution • Tropics – Low – Nutrients trapped below thermocline Phytoplankton Distribution • Poles – Mostly Low (except for summer peak) – Insufficient light Phytoplankton Distribution • Temperate Regions – Highest overall – sufficient light & nutrients – Spring Peak • Increasing sunlight – Fall Peak • Increasing mixing of nutrients Zooplankton • Animal plankton – many different types • Heterotrophic – primary consumers • Based on the phytoplankon abundance graph…how would you expect zooplankton abundance to vary? Figure 13.11a: Arctic Ecosystem Figure 13.13a: Temperate Ecosystem Zooplankton • Major types – – – – – Radiolarians Foraminifers Copepods Krill Zooplankton • Holoplankton – Spend their entire life in plankton • Major types – – – – – – Radiolarians Foraminifers Copepods Krill Jellyfish (cnidarians) and comb jellies (ctenophores) Figure 14.3: Radiolarians Singlecelled; Hard shell made of silica Figure 14.4: Foraminifers Single-celled; shell made from calcium carbonate Copepods Small crustaceans (<1 mm) Very abundant Figure 14.5: Copepod diversity Krill – Important in Antarctic Ecosystem Fig. 13-9, p. 265 Fig. 13-10c, p. 266 Zooplankton • Meroplankton – Only found in plankton for part of their life cycle – Larvae of benthic adults & fish Meroplankton