<Li> "How has the global biogeochemical / climate system called Gaia changed in time? What is its history? Can Gaia maintain stability of the system at one time scale but still undergo vectorial change at longer time scales? How can the geologic record be used to examine these questions?" </Li> <Li> "What is the structure of Gaia? Are the feedbacks sufficiently strong to influence the evolution of climate? Are there parts of the system determined pragmatically by whatever disciplinary study is being undertaken at any given time or are there a set of parts that should be taken as most true for understanding Gaia as containing evolving organisms over time? What are the feedbacks among these different parts of the Gaian system, and what does the near closure of matter mean for the structure of Gaia as a global ecosystem and for the productivity of life?" </Li> <Li> "How do models of Gaian processes and phenomena relate to reality and how do they help address and understand Gaia? How do results from Daisyworld transfer to the real world? What are the main candidates for "daisies"? Does it matter for Gaia theory whether we find daisies or not? How should we be searching for daisies, and should we intensify the search? How can Gaian mechanisms be investigated using process models or global models of the climate system that include the biota and allow for chemical cycling?" </Li> <P> In 1997, Tyler Volk argued that a Gaian system is almost inevitably produced as a result of an evolution towards far - from - equilibrium homeostatic states that maximise entropy production, and Kleidon (2004) agreed stating: "...homeostatic behavior can emerge from a state of MEP associated with the planetary albedo"; "...the resulting behavior of a biotic Earth at a state of MEP may well lead to near - homeostatic behavior of the Earth system on long time scales, as stated by the Gaia hypothesis". Staley (2002) has similarly proposed "...an alternative form of Gaia theory based on more traditional Darwinian principles...In (this) new approach, environmental regulation is a consequence of population dynamics, not Darwinian selection . The role of selection is to favor organisms that are best adapted to prevailing environmental conditions . However, the environment is not a static backdrop for evolution, but is heavily influenced by the presence of living organisms . The resulting co-evolving dynamical process eventually leads to the convergence of equilibrium and optimal conditions". </P>

Who were the 2 scientists who developed the idea of natural solution