Biological productivity is how much energy or mass is produced by the members of an ecosystem. There are two types of biological productivity: primary production, in which organisms create organic material from inorganic materials through autotrophy; and secondary production, in which organic material is created from other organic material through heterotrophy.
Biological agriculture is a method of farming that emphasizes the use of natural and organic inputs to promote soil health and sustainable crop production. It focuses on enhancing biodiversity, using natural predators to control pests, and avoiding synthetic chemicals and fertilizers. This approach aims to create a healthy ecosystem that supports long-term agricultural productivity without harming the environment.
If the question is to give examples of biological in a sentence. " ...This is Biological evidence." or " Biological studies show that... "
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Hair Follicle
Formil Colour detergent by Lidl is non-biological, which means it does not contain enzymes derived from living organisms. This type of detergent is usually preferred for those with sensitive skin or allergies to biological detergents.
The highest biological productivity is usually found in areas with abundant sunlight, nutrients, and suitable temperatures, such as tropical rainforests, coral reefs, and estuaries. These regions support diverse ecosystems with high levels of primary productivity due to the optimal conditions for plant and algae growth.
A biological community's productivity is measured by the amount of energy captured through photosynthesis by primary producers, such as plants, and transferred to higher trophic levels. This can be quantified by measuring the rate of biomass production or carbon fixation within the community. The productivity reflects the overall efficiency and health of the ecosystem.
sub tidal and intertidal areas
A biological community's productivity is commonly measured using indicators such as primary productivity (the rate at which energy is converted into organic matter by plants through photosynthesis) or secondary productivity (the rate at which energy is incorporated into the biomass of consumers). These measurements provide insight into the amount of energy that flows through an ecosystem and can help assess its overall health and functioning.
Astrid Eberwein has written: 'Holocene and Last Glacial Maximum (paleo-)productivity off Morroco' -- subject(s): Benthic animals, Biological productivity, Foraminifera
High biological productivity around Antarctica is driven by the upwelling of nutrient-rich waters due to strong winds and ocean currents in the region. These nutrients support abundant phytoplankton growth, which in turn sustains a diverse food web including krill, fish, and other marine species. The cold, nutrient-rich conditions also help to support large populations of seabirds and marine mammals in the area.
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W. D. Russell-Hunter has written: 'Aquatic productivity' -- subject(s): Biological productivity, Fisheries, Limnology, Marine biology 'Biology of Lower Invertebrates' 'A biology of higher invertebrates' -- subject(s): Invertebrates
Steven Olson Howe has written: 'Biological consequences of environmental changes related to coastal upwelling' -- subject(s): Marine ecology, Upwelling (Oceanography), Marine productivity
Indiscipline reduces productivity.
single factor productivity and total factor productivity
The appearance of life on Earth increased the diversity and complexity of biological organisms, leading to the development of ecosystems and the formation of different habitats. It also contributed to the overall productivity and stability of the planet's biosphere.