310 likes | 603 Views
Benthic Fauna. Benthic Fauna. Extremely diverse group of organisms Many different groups, difficult to generalize about patterns. Distribution and Abundance. Limited by few general characteristics Food availability Type of substrate Few phys/chem factors, especially dissolved oxygen.
E N D
Benthic Fauna • Extremely diverse group of organisms • Many different groups, difficult to generalize about patterns
Distribution and Abundance • Limited by few general characteristics • Food availability • Type of substrate • Few phys/chem factors, especially dissolved oxygen
Littoral vs. Profundal • Benthic animals living in littoral region more varied than those in profundal region • Reflection of: • 1) abundance of microhabitats • 2) less stressful living conditions
Littoral Benthos • Protozoans, sponges, coelenterates, rotifers, nematodes, bryozoans, decapods, ostracods, cladocerans, copepods, bivalves, snails, insects, leeches
Littoral Benthos • Microbenthos - very tiny • Vastly outnumber macrobenthos, and may contribute up to 50% of benthic production
Littoral Benthos • Seldom food limited • Proximity to phytoplankton, macrophytes
Sublittoral Benthos • Boundary between littoral & profundal • Species diversity drops off sharply • Mussels, ostracods, copepods, cladocerans from littoral - few typical dwellers
Profundal Benthos • Very poor diversity • Oxygen limited • Other stressors: • Colder • Lower pH • Higher CO2, CH4, organics, P, NH3 • Few can survive underthese conditions
Profundal Benthos • Profundal benthos in eutrophic lakes resemble those of grossly polluted systems • Low diversity, monotony - great number of individuals, but only 1 or 2 species represented
Typical Profundal Assemblage • Chironomus midge larvae • Hemoglobin picks up limited oxygen • May also be able to use anaerobic respiration & excrete products of this process
Typical Profundal Assemblage • Oligochaete worms: Tubifex, Limnodrilus • Bury heads in organic sediments, wave tails with gills • Can develop huge populations (10,000+/m2) • Preyed on heavily by predaceous Chironomus
Typical Profundal Assemblage • Fingernail clams in genus Pisidium • Become dormant during anaerobic periods • May also inhabit temporary ponds
Typical Profundal Assemblage • Phantom midge larvae - Chaoborus • Temporary occupants - spend day on sediments, migrate into water column at night to prey on zooplankton • Not very tolerant of anoxia
Typical Profundal Assemblage • Also several microscopic forms that tolerate low oxygen • Some protozoan ciliates and flagellates, some nematodes
General Standing Crop • Most lakes have profundal benthos that averages ~5 g wet weight/m2 • ~1/2 g dry weight/m2
Less Productive Lakes • Profundal benthos more diverse in less productive (oligotrophic) lakes • Major reason: oxygenated sediment-water interface
Less Productive Lakes • More species of midge larvae, oligochaetes, immature insects like mayflies • Hexagenia - burrowing mayfly
Less Productive Lakes • Also more crustaceans like the amphipod Pontoporeia • Makes vertical migrations up to metalimnion at night (doesn’t eat zooplankton)
General Benthos Pattern • Diverse group in heterogenous, oxygenated littoral zone • Less diversity in more homogeneous profundal zone (less in more productive lakes)
Maxima of Abundance Two maxima - one in littoral - one in profundal biomass depth
Maxima of Abundance As systems become more productive, zone of max. production shifts from littoral to profundal, then declines in profundal biomass depth Midges replaced by oligochaetes
Seasonal Abundance Patterns • Lowest in summer (especially in insect-dominated communities) • Emergence of adults, high predation • Maximum densities and growth typically in autumn and winter in temperate zone
Predation by Fish • Predation can drastically reduce invertebrate standing crop • May be >50% of populations in some littoral areas • Predation losses in profundal areas generally much lower
Predation by Fish • Despite intense predation pressure, benthos dynamics and production mostly controlled by food supply