A Quote by Janine Benyus

Organisms don't think of CO2 as a poison. Plants and organisms that make shells, coral, think of it as a building block. — © Janine Benyus
Organisms don't think of CO2 as a poison. Plants and organisms that make shells, coral, think of it as a building block.
Organisms dont think of CO2 as a poison. Plants and organisms that make shells, coral, think of it as a building block.
Bacteria are single-celled organisms. Bacteria are the model organisms for everything that we know in higher organisms. There are 10 times more bacterial cells in you or on you than human cells.
Blockchains are digital organisms. As organisms evolve through changes in their DNA, blockchain protocols evolve through changes in their code. And like biological organisms, the most adaptive blockchains will be the ones that survive and thrive.
The chemical differences among various species and genera of animals and plants are certainly as significant for the history of their origins as the differences in form. If we could define clearly the differences in molecular constitution and functions of different kinds of organisms, there would be possible a more illuminating and deeper understanding of question of the evolutionary reactions of organisms than could ever be expected from morphological considerations.
Early ecologists soon realised that, since humans are organisms, ecology should include the study of the relationship between humans and the rest of the biosphere. ... We don't often tend to think about the social sciences (history, economics and politics) as subcategories of ecology. But since people are organisms, it is apparent that we must first understand the principles of ecology if we are to make sense of the events in the human world.
The world of organisms, of animals and plants, is built up of individuals. I like to think, then, of natural history as the study of life at the level of the individual-of what plants and animals do, how they react to each other and their environment, how they are organized into larger groupings like populations and communities.
Evolutionary biologists often appeal to parsimony when they seek to explain why organisms "match" with respect to a given trait. For example, why do almost all the organisms that are alive today on our planet use the same genetic code? If they share a common ancestor, the code could have evolved just once and then been inherited from the most recent common ancestor that present organisms share. On the other hand, if organisms in different species share no common ancestors, the code must have evolved repeatedly.
Since the beginning of civilization humans have altered our environment and its biology to allow our civilization to thrive - from domesticating plants and animals to building shelter and tools from living organisms.
For the fact is that organisms are creative and make their environments in such a way as to become virtually part of it themselves. But at the same time environments (nature and other people) are active in the making of organisms. In many respects each one of these elements, organism and environment, form part of one another.
We're at a point in time which is analogous to when single-celled organisms were turning into multi-celled organisms. So we're the amoebas.
Think of it : zillions and zillions of organisms running around, each under the hypnotic spell of a single truth, all these truths identical, and all logically incompatible with one another : 'My hereditary material is the most important material on earth; its survival justifies your frustration, pain, even death'. And you are one of those organisms, living your life in the thrall of a logical absurdity.
You put three facts together - that all organisms produce more offspring that can survive, that there's variation among organisms, and that at least some of that variation is inherited - and the syllogistic inference is natural selection.
Trait X is fitter than trait Y in a population of organisms if those organisms have other biological traits T and live in an environment that has properties E. The theory of natural selection is filled with statements of this form.
If the organisms in a species now have trait T, and this trait now helps those organisms to survive and reproduce because the trait has effect E, a natural hypothesis to consider is that T evolved in the lineage leading to those current organisms because T had effect E. This hypothesis is "natural," but it often isn't true!
Organisms are not billiard balls, propelled by simple and measurable external forces to predictable new positions on life's pool table. Sufficiently complex systems have greater richness. Organisms have a history that constrains their future in myriad, subtle ways.
I always think of it you know building a business, building a brand, a friend of mine gave me a metaphor for it which I think is really true it's like building coral, you don't see it happening it's just little little little and when you step back you think wow.
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