Ecosystem
2-10
% of PAR captured by plants and photosynthetic bacteria to make food
50
% of the incident solar radiation thhat is PAR
pyramid of energy
A pyramid that shows the total amount of energy available at each trophic level.
detritus food chain
DFC - starts with dead organic matter
grazing food chain
GFC - producer --> primary consumer --> secondary consumer
gross primary productivity
GPP
decomposers
Heterotrophic organisms that obtain energy by eating decaying organisms - mainly bacteria or fungi meet energy and nutrient requirements by degrading dead organic matter or detritus
net primary productivity
NPP
photosynthetically active radiation
PAR stands for
saprotrophs
also known as decomposers secrete digestive enzymes that break down dead and waste materials into simple inorganic materials which are subsequently absorbed by them
biogeochemcial cycles
alternative name for nutrient cycling in the ecosystem
primary production
amount of biomass or organic matter produced per unit area over a time period by plants during photosynthesis
standing state
amount of nutrients such as carbon, nitrogen, phosphorus, calcium etc. present in the soil at any given time
primary succession
an ecological succession that begins in an area where no living organisms ever existed
secondary consumers
animals that eat other animals that feed on plants or their produce
secondary carnivores
animals that feed on primary carnivores
primary consumers
animals that feed on the producers or the plants
55 billion
annual net primary productivity of oceans (dry weight) in tonnes
170 billion
annual net primary productivity of the biosphere (dry weight) in tonnes
phytoplanktons
autotrophic components of pond ecosystem along with algae and some floating, submerged and marginal plants
NPP
available biomass for the consumption of heterotrophs
secondary succession
begins in areas where natural biotic communities have been destroyed like abandoned farm lands, burned or cut forests, flooded lands
detritivores
break down detritus into smaller particles - earthworm
fragmentation
breaking down of detritus into smaller particles by detritivores like earthworms
standing crop
certain mass of living material that each trophic level has at a particular time
humus
colloid that serves as the reservoir of nutrients in soil
climax community
community that is in near equilibrium with the environment developed due to ecological succession over a long period
heterotrophs
consumers - depend on plants directly or indirectly for their food needs
man-made ecosystems
crop fields, aquarium
humus
dark coloured amorphous substance that is formed by the process of humification
mineralisation
degradation of humus by some microbes to release inorganic nutrients
primary productivity
depends on the plant species inhabiting an area and on variety of environmental factors like availability of nutrients and photosynthetic capacity of plants
phytoplanktons, submerged plants, submerged free floating plants, reed swamp, marsh meadow, scrub, forest
different stages in hydrarch succession from pioneer species to climax community
xeric
dry conditions
pyramid of energy
ecological pyramid that is always upright and never inverted
secondary succession
ecological succession that is faster due to presence of soil
seres
entire sequence of communities that successively change in a given area
terrestrial ecosystems
examples - forest, grassland, desert
aquatic ecosystems
examples - pond, lake, wetland, river, estuary
earthworm
farmer's friend because they help in the breakdown of complex organic matter as well as in loosening the soil
GFC
food chain that is the major conduit for energy flow in aquatic organisms
DFC
food chain through which larger fraction of energy flows through in a terrestrial ecosystem
productivity, decomposition, energy flow, nutrient cycling
four basic components of an ecosystem
ecosystem
functional unit considering productivity, decomposition, energy flow and nutrient cycling
ecosystem
functional unit of nature where living organisms interact among themselves and also with the surrounding environment
ecological succession
gradual and fairly predictable change in the species composition of a given area through change in the diversity of species, increase in the number of species and organisms and increase in total biomass
productivity
has units g m-2 yr-1 or kcal m-2 yr-1
primary production
has units of g m-2 or kcal m-2
ecological pyramids
have the limitations that it does not take into account the same species belonging to more than one trophic level and assumes a simple food chain which does not occur in nature besides saprophytes are not given any place
mesic
having medium water conditions
consumers
heterotrophs - depend on plants directly or indirectly for their food needs
humus
highly resistant to microbial action and undergoes decomposition at an extremely slow rate
pyramid of biomass
illustrates the relative amount of living organic matter available at each trophic level in an ecosystem
producers
in a terrestrial ecosystem, mainly herbaceous and woody plants in an aquatic ecosystem, phytoplankton, algae and higher plants
seral communities
individual transitional communities during ecological succession
decomposition
largely an oxygen requiring process controlled by chemical composition of detritus and climatic factors
10% law
law followed for transfer of energy between successive trophic levels in a GFC
standing crop
measured as biomass or no. in a unit area
ecological pyramids
models that depict the food or energy relationships between organisms at different trophic levels in terms of number, biomass or energy
temperature, soil moisture
most important climatic factors that regulate decomposition through their effects on activities of soil microbes
nutrient cycling
movement of nutrient elements through the various components of an ecosystem without being lost
food web
natural interconnections between food chains in an ecosystem
nitrogen, carbon
nutrient cycles of these elements are gaseous
gaseous nutrient cycles
nutrient cycles with reservoir in the atmosphere
decomposers
organisms that break down complex organic matter into inorganic substances like CO2, water and nutrients
phytoplanktons
pioneer species in hydrarch succession
lichens
pioneer species in primary succession on rock
herbivores
primary consumers that eat plants eg. insects, birds, mammals in terrestrial ecosystem and molluscs in aquatic ecosystem
catabolism
process by which bacterial and fungal enzymes degrade detritus into simpler inorganic substances
leaching
process by which water soluble inorganic nutrients go down into the soil horizon and get precipitated as unavailable salts
decomposition
process of breaking down complex organic matter into inorganic substances like CO2, water and nutrients
humification
process which leads to accumulation of humus
productivity
rate of biomass production
secondary productivity
rate of formation of new organic matter by consumers
GPP
rate of production of organic matter during photosynthesis - considerable amount utilised by plants in respiration
detritus
raw material for decomposition made up of dead plant remains such as leaves, bark, flowers and dead remains of animals including faecal matter
pyramid of number
representation of the number of individual organisms in each trophic level of an ecosystem
primary carnivores
secondary consumers that feed on herbivores
lichens
secrete acids to dissolve rock helping in weathering and soil formation
pond
shallow water body; self-sustainable unit water with dissolved inorganic and organic substances rich soil deposit at the bottom solar input, temperature cycle, day-length, climate
inverted
shape of pyramid of biomass in oceans/sea
inverted
shape of pyramid of number for insects feeding on a big tree
zooplankton
small free-floating animals that form part of plankton that are consumers
secondary succession
species of invasion depends on soil condition, water availability, environment and seeds or propagules present
pioneer species
species that invade a bare area
trophic level
specific place in the food chain that organisms occupy based on the source of their nutrition and food
lignin, chitin
substances in detritus that can slow decomposition down
nitrogen, sugars
substances in detritus that can speed up decomposition reactions
secondary succession
succession taking place in areas that lost all the living organisms that existed there
primary succession
succession that is slower, and requires formation of soil depending on the climate may take several hundred to thousands of years
xerarch succession
succession that takes place in dry areas and series progresses from xeric to mesic conditions
hydrarch succession
succession that takes place in wetter areas and the successional series progresses from hydric to mesic conditions
ecological succession
takes place in areas where no living organisms are there - either from areas where no living organisms ever existed or in areas that somehow lost all living organisms
primary succession
takes place on newly cooled lava, bare rock, newly created pond, reservoir
fragmentation, leaching, catabolism, humification, mineralisation
the important steps in the process of decomposition
biomass
the total mass of organisms in a given area or volume.
sun
the ultimate source of energy for all living things of an ecosystem
stratification
vertical distribution of different species occupying different levels of an ecosystem
dry weight
weight of biomass which is more accurate
hydric
wet conditions