DATA INTERPRETATION

 

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Below is a summary of oceanographic conditions that are typical of our coastal ocean during the following times:

o   Normal Southern California Winter

o   Normal Southern California Summer

o   El Nino year

o   La Nina year

o   Harmful Algal Bloom (HAB)

o   Polluted Ocean

 

Use these descriptions as a guide to interpret data acquired during the Advanced Floating Lab boat trip. 

 

 

Normal Southern California Winter

 

The productivity on the Southern California coast is controlled by coastal winds and the strength of the thermocline.  In the winter, there is usually a weak thermocline (in other words, little temperature difference surface water and deep water) and coastal winds are from the northwest.  Both conditions are ideal for the upwelling of nutrients that can be present on a healthy seabed.  A healthy seabed is generally brown or green in color, has a rich earthy/ocean smell, and has a significant number of decomposers such as pink brittle stars.  The water sweeps across the healthy seabed and picks up nutrients.  This nutrient-rich water then rises up to the euphotic zone, where the phytoplankton use the nutrients, along with sunlight, to photosynthesize and reproduce in vast numbers.  Nutrients also come to the ocean from land-based runoff (rivers flowing into the ocean), although this is secondary in importance to upwelling for the supply of nutrients.  A Secchi Disk under such conditions typically shows greenish water color and moderate to low water clarity due to the abundant phytoplankton (particularly diatoms).  Oxygen levels may be quite high in surface waters due to phytoplankton photosynthesis.  Most fish species caught are in their normal range.

 

A summary of our normal southern California winter conditions:

o   High primary productivity (lots of photosynthesis and reproduction by phytoplankton)

o   Weak thermocline (little temperature difference surface water and deep water)

o   Strong upwelling

o   Secchi disk will be green with moderate to low water clarity

o   Plankton: large amounts of diatoms, although usually few dinoflagellates

o   Seabed: healthy (hopefully)

o   Seawater properties: oxygen levels normal to high in surface waters; pH and salinity in normal range

o   Fish species: most fish species caught are in their normal range

 

 

Normal Southern California Summer

 

The productivity on the Southern California coast is controlled by coastal winds and the strength of the thermocline.  In the summer, we often have a strong thermocline (a large temperature difference between warm surface water and cool deep water) and the coastal winds often come from the southwest.  This creates conditions that are not conducive to upwelling.  The surface water is warm and therefore less dense than the cooler water down below, which makes it difficult for nutrients to rise up to the surface to be used by phytoplankton.  Therefore, phytoplankton productivity is low, and this means that the Secchi Disk typically shows blue water color and high clarity.  There may be lower dissolved oxygen than in winter because of lower rates of phytoplankton photosynthesis.  Most fish species caught are in their normal range.

 

A summary of our normal southern California summer conditions:

o   Moderate to low primary productivity (less photosynthesis and reproduction by phytoplankton)

o   Strong thermocline

o   Lack of upwelling

o   Secchi disk will be blue with high water clarity

o   Plankton: moderate to low amounts of phytoplankton and zooplankton

o   Seabed: healthy (hopefully)

o   Seawater properties: lower oxygen than in winter (but still in normal range), pH and salinity in normal range

o   Fish species: most fish species caught are in their normal range

 

 

El Nino years

 

During El Nino periods, a strong thermocline develops and persists most of the year.  The warm surface water is too buoyant to allow the cold, nutrient-rich deep water to rise up to the euphotic zone.  Therefore, very little upwelling of nutrients occurs, and productivity is thus very low.  Fish may migrate out of their range to find food, as food supplies are generally low, and fish that normally live in warmer waters to the south (like along the coast of Mexico), may migrate north to our area. 

 

A summary of El Nino conditions:

o   Low primary productivity

o   Strong thermocline all year long, even in winter

o   Lack of upwelling

o   Secchi disk will be blue and the water very clear (at least when there is not sediment from rainstorms in the water)

o   Plankton: low amounts of phytoplankton and zooplankton

o   Fish species: low numbers, and some are exotic (not normally found in this area) 

 

 

La Nina years

 

During La Nina periods, surface waters are unusually cold and the thermocline is very weak.  Productivity may actually be higher than in normal years.  Since La Nina years often follow El Nino years, fish populations may be recovering.  La Nina conditions are similar to the conditions of a normal southern California winter.

 

A summary of La Nina conditions:

o   High primary productivity (lots of photosynthesis and reproduction by phytoplankton)

o   Weak thermocline (little temperature difference surface water and deep water)

o   Strong upwelling

o   Secchi disk will be green with low to moderate water clarity

o   Plankton: large amounts of diatoms, although usually few dinoflagellates

o   Seabed: healthy (hopefully)

o   Seawater properties: oxygen levels normal to high in surface waters; pH and salinity in normal range

o   Fish species: population variable, recovering from previous El Nino 

 

 

Red Tide / Harmful Algal Bloom (HAB)

 

The main indicator of a harmful algal bloom (commonly known as a “red tide”) is the great abundance of dinoflagellates.  There may be few other plankton in the water even though we may have a weak thermocline and a healthy seabed.  The Secchi disk will show a brown color and low water clarity. 

o   Abundant dinoflagellates

o   Secchi disk: brown color with low water clarity

o   Seabed: unaffected but healthy (hopefully)

o   Fish species: most fish species caught are in their normal range

 

Polluted Ocean

 

In ocean areas that are polluted or contain stagnant water, there may be lower-than-normal dissolved oxygen levels. The seabed may be black or dark in color and have a rotten egg smell.  Even if upwelling is occurring, the necessary nutrients may not be delivered to the euphotic zone, and productivity may therefore be limited.  In extreme cases, the pH may not be in the normal range. 

 

A summary of Polluted Ocean conditions:

o   Seawater properties: low dissolved oxygen, also possibly abnormal pH

o   Seabed: unhealthy, rotten egg smelling, black/dark in color, few decomposers

o   Fish species: low overall numbers 

  

 

Contents of this page modified by Keith Meldahl based on materials developed by John Turbeville, Mira Costa College.