Ecological inheritance occurs when an organism's offspring inhabit a modified environment that a previous generation created. Therefore, the selective pressures created from the modifications must remain for the next generation in order for it to be deemed ecological inheritance. It was first described in Odling-Smee (1988) and Odling-Smee et al. (1996) as a consequence of

niche construction Niche construction is the ecological process by which an organism alters its own (or another species') local environment. These alterations can be a physical change to the organism’s environment, or it can encompass the active movement of an or ...

. Standard evolutionary theory focuses on the influence that

natural selection Natural selection is the differential survival and reproduction of individuals due to differences in phenotype. It is a key mechanism of evolution, the change in the Heredity, heritable traits characteristic of a population over generation ...

and

genetic inheritance Heredity, also called inheritance or biological inheritance, is the passing on of traits from parents to their offspring; either through asexual reproduction or sexual reproduction, the offspring cells or organisms acquire the genetic inform ...

has on biological evolution, when individuals that survive and reproduce also transmit

genes In biology, the word gene has two meanings. The Mendelian gene is a basic unit of heredity. The molecular gene is a sequence of nucleotides in DNA that is transcribed to produce a functional RNA. There are two types of molecular genes: protei ...

to their offspring. If offspring do not live in a modified environment created by their parents, then

activities of parents do not affect the selective pressures of their offspring (''see'' orb-web spiders in Genetic inheritance vs. ecological inheritance below). However, when niche construction affects multiple generations (i.e., parents and offspring), ecological inheritance acts an inheritance system different than genetic inheritance which is also termed "legacy effects".

Factors of ecological inheritance

Since ecological inheritance is a result of ecosystem engineering and

, the fitness of several species and their subsequent generations experience a selective pressure dependent on the modified environment they inherit. Organisms in subsequent generations will encounter ecological inheritance because they are affected by a new selective environment created by prior niche construction. On a macroevolutionary scale, ecological inheritance has been defined as, "... the persistence of environmental modifications by a species over multiple generations to influence the

evolution Evolution is the change in the heritable Phenotypic trait, characteristics of biological populations over successive generations. It occurs when evolutionary processes such as natural selection and genetic drift act on genetic variation, re ...

of that or other species." Ecological inheritance has also been defined as, "... the accumulation of environmental changes, such as altered soil, atmosphere or ocean states that previous generations have brought about through their niche-constructing activity, and that influence the development of descendant organisms." If when an organism or environment is responding to an environmental factor and certain factors and/or features of said organism/environment are advantageous in regards to natural selection, then those factors/features are related to niche construction and ecological inheritance. For example, a feature of the environment may have increased the fitness of an individual by enabling it to acquire a food resource or evade a predator more efficiently. In this context, natural selection promotes a correspondence between features and factors, defined as ''synerg.'' Ecological inheritance occurs when an organism experiences an altered factor-feature relationship with selected pressures originating from parents or ancestral generations.

Richard Lewontin Richard Charles Lewontin (March 29, 1929 – July 4, 2021) was an American evolutionary biologist, mathematician, geneticist, and social commentator. A leader in developing the mathematical basis of population genetics and evolutionary theory, ...

stresses how by modifying the availability of biotic and

abiotic In biology and ecology, abiotic components or abiotic factors are non-living chemical and physical parts of the environment that affect living organisms and the functioning of ecosystems. Abiotic factors and the phenomena associated with them und ...

resources, niche-constructing organisms can cause organisms to coevolve with their environments.

Examples

There can be examples of ecological inheritance within one species to impact just that one species. In the book,

On the Origin of Species ''On the Origin of Species'' (or, more completely, ''On the Origin of Species by Means of Natural Selection, or the Preservation of Favoured Races in the Struggle for Life'')The book's full original title was ''On the Origin of Species by M ...

Charles Darwin Charles Robert Darwin ( ; 12 February 1809 – 19 April 1882) was an English Natural history#Before 1900, naturalist, geologist, and biologist, widely known for his contributions to evolutionary biology. His proposition that all speci ...

described ways that organisms alter selection pressures by modifying local environments (i.e., habitats in which they live) that affect their fitness. For example, the effect of ecological inheritance on long-term evolutionary dynamics are performed by subsequent generations of

earthworm An earthworm is a soil-dwelling terrestrial invertebrate that belongs to the phylum Annelida. The term is the common name for the largest members of the class (or subclass, depending on the author) Oligochaeta. In classical systems, they we ...

that burrow through soil. As earthworms burrow, they modify soil structure and enrich the nutrient content by mixing decomposing organic matter with inorganic soil content. The burrowing makes water easily available and absorbed by earthworms in the soil, and consequently, worms have kept their ancestral freshwater kidneys rather than evolve terrestrial anatomy. Ecological inheritance can also involve the chemicals produced by organisms of different species such as the sea urchin ''Holopneustes purpurascens'' and the red alga ''Delisea pulchra.'' The sea urchin metamorphoses on the red alga during its early stages of life but then moves to the brown algae ''Ecklonia radiate'' because of the chemicals produced on the red algae that deter the sea urchin after a certain period of time. The

secondary metabolites Secondary metabolites, also called ''specialised metabolites'', ''secondary products'', or ''natural products'', are organic compounds produced by any lifeform, e.g. bacteria, archaea, fungi, animals, or plants, which are not directly involved ...

produced by the algae modify the environment that the sea urchin inhabits, thus resulting in changes for the following generations making this an example of ecological inheritance as well as

chemical ecology A chemical substance is a unique form of matter with constant chemical composition and characteristic properties. Chemical substances may take the form of a single element or chemical compounds. If two or more chemical substances can be combin ...

. Also, ecological inheritance can occur within a species that effects the entire

biosphere The biosphere (), also called the ecosphere (), is the worldwide sum of all ecosystems. It can also be termed the zone of life on the Earth. The biosphere (which is technically a spherical shell) is virtually a closed system with regard to mat ...

, and thus ecological inheritance has significant implications for macroevolution. Ancestral species may modify environments through their niche construction that may have consequences for other species, sometimes millions of years later. For instance,

cyanobacteria Cyanobacteria ( ) are a group of autotrophic gram-negative bacteria that can obtain biological energy via oxygenic photosynthesis. The name "cyanobacteria" () refers to their bluish green (cyan) color, which forms the basis of cyanobacteri ...

produced oxygen as a waste product of photosynthesis (see

great oxygenation event The Great Oxidation Event (GOE) or Great Oxygenation Event, also called the Oxygen Catastrophe, Oxygen Revolution, Oxygen Crisis or Oxygen Holocaust, was a time interval during the Earth's Paleoproterozoic era when the Earth's atmosphere and ...

), which dramatically changed the composition of the Earth's atmosphere and oceans, with vast macroevolutionary consequences. Additionally, as organisms adapt to

climate change Present-day climate change includes both global warming—the ongoing increase in Global surface temperature, global average temperature—and its wider effects on Earth's climate system. Climate variability and change, Climate change in ...

, the alterations they make to the environment will become a part of the future of ecological inheritance.

Ecological inheritance, ecosystem engineering, and niche construction

Almost all species engage in

ecosystem engineer An ecosystem engineer is any species that creates, significantly modifies, maintains or destroys a habitat. These organisms can have a large impact on species richness and landscape-level heterogeneity of an area. As a result, ecosystem engine ...

ing, which occurs when the availability of a resource is altered by organisms that create, alter, or destroy habitats.

Niche construction Niche construction is the ecological process by which an organism alters its own (or another species') local environment. These alterations can be a physical change to the organism’s environment, or it can encompass the active movement of an or ...

occurs when the interactions and relationship between a species and its environment alters the niche and selective pressure of the species. Organisms modify their local environment, or habitat, by relocating to a different location or physically altering the selective environment; when these modifications alter the selection of subsequent generations, ecological inheritance occurs. Therefore, niche construction focuses on the evolutionary impact of species and their local environment.

Ecosystem engineer An ecosystem engineer is any species that creates, significantly modifies, maintains or destroys a habitat. These organisms can have a large impact on species richness and landscape-level heterogeneity of an area. As a result, ecosystem engine ...

ing has been described as a consequence of niche construction but it is not clear whether

ing activities always influence selection. Ecological inheritance has been termed a ‘persistor’ that may influence evolution when the persistence of ecological inheritance is longer than the timing of the ‘replicator’ – a term

Richard Dawkins Richard Dawkins (born 26 March 1941) is a British evolutionary biology, evolutionary biologist, zoologist, science communicator and author. He is an Oxford fellow, emeritus fellow of New College, Oxford, and was Simonyi Professor for the Publ ...

used for gene.

Genetic inheritance vs. ecological inheritance

Genetic inheritance Heredity, also called inheritance or biological inheritance, is the passing on of traits from parents to their offspring; either through asexual reproduction or sexual reproduction, the offspring cells or organisms acquire the genetic inform ...

depends on the processes of reproduction that transmit genes between generations, from parents to offspring. Ecological inheritance takes the form of biotically modified

selection pressure Evolutionary pressure, selective pressure or selection pressure is exerted by factors that reduce or increase reproductive success in a portion of a population, driving natural selection. It is a quantitative description of the amount of change oc ...

that can be passed on by organisms in one generation at any time in their lifetime to organisms of subsequent generations which therefore are essentially inheriting a type of territory or property. Ecological inheritance does not depend on replication of environmental factors, but rather on the persistence of environmental factors that affect the selective pressures of subsequent generations. For example, the trait of web construction by orb-web spiders has been shaped by

and is passed onto subsequent generations through genetic inheritance; spider webs are not a form of ecological inheritance because they are too transient and do not affect the evolution of multi-generational populations of spiders via niche construction. If, however, the physical characteristics of a modified environment created by one generation continues to exist for the descendants, then niche construction is affecting more than one generation and ecological inheritance has occurred, as in the example of earthworms described above. In

, descendants inherit genes (acted upon by natural selection) from their parents that contain information in the nucleotide sequences of

DNA Deoxyribonucleic acid (; DNA) is a polymer composed of two polynucleotide chains that coil around each other to form a double helix. The polymer carries genetic instructions for the development, functioning, growth and reproduction of al ...

used to express

phenotype In genetics, the phenotype () is the set of observable characteristics or traits of an organism. The term covers the organism's morphology (physical form and structure), its developmental processes, its biochemical and physiological propert ...

s; in ecological inheritance, information is not transmitted in the same way, but instead, characteristics of a modified environment affect the phenotypic expression of descendants. The mechanisms of genetic and ecological inheritance are also different; whereas genetic inheritance depends on reproduction (e.g., sexual and asexual) where genes are transmitted in one direction from parent to offspring in the same species, the modified environment and its selective pressures caused by ecological inheritance can be handed down from one species to any other species within and between generations.

The modern synthesis

Ecological inheritance is considered a form of habitat construction, which has been considered a new way to expand upon natural selection as a way organisms influence their own evolution. Two assumptions under the

Modern Synthesis Modern synthesis or modern evolutionary synthesis refers to several perspectives on evolutionary biology, namely: * Modern synthesis (20th century), the term coined by Julian Huxley in 1942 to denote the synthesis between Mendelian genetics and s ...

are the following: (1) only genes are inherited from one generation to the next and (2) micro-evolutionary processes that include selection, drift, mutation, and

gene flow In population genetics, gene flow (also known as migration and allele flow) is the transfer of genetic variation, genetic material from one population to another. If the rate of gene flow is high enough, then two populations will have equivalent ...

affect patterns of macro-evolution. Since the early twentieth century, however, evolutionary biologists have modified the

to include ways organisms modify the environment and inhabited by their subsequent generations. This new interpretation of the

is called the

extended evolutionary synthesis The Extended Evolutionary Synthesis (EES) consists of a set of theoretical concepts argued to be more comprehensive than the earlier modern synthesis of evolutionary biology that took place between 1918 and 1942. The extended evolutionary synthe ...

and describes how ecological inheritance affects evolution on micro- and macro-evolutionary scales because organisms modify their environments in non-random ways to generate selective pressures on subsequent generations.

Factors of ecological inheritance

Examples

Ecological inheritance, ecosystem engineering, and niche construction

Genetic inheritance vs. ecological inheritance

The modern synthesis

References

Further reading