Scientists reveal ‘evolutionary trigger’ that made flowering plants dominate Earth
December 2nd, 2009 - 4:37 pm ICT by ANIWashington, December 2 (ANI): A new study has revealed the evolutionary trigger which led to early flowering plants gaining a major competitive advantage over rival species, leading to their subsequent boom and abundance.
The study, by Dr Tim Brodribb and Dr Taylor Field of the University of Tasmania and University of Tennessee, used plant physiology to reveal how flowering plants, including crops, were able to dominate land by evolving more efficient hydraulics, or ‘leaf plumbing’, to increase rates of photosynthesis.
“Flowering plants are the most abundant and ecologically successful group of plants on earth,” said Brodribb.
“One reason for this dominance is the relatively high photosynthetic capacity of their leaves, but when and how this increased photosynthetic capacity evolved has been a mystery,” he added.
Using measurements of leaf vein density and a linked hydraulic-photosynthesis model, Brodribb and Field reconstructed the evolution of leaf hydraulic capacity in seed plants.
Their results revealed that an evolutionary transformation in the plumbing of angiosperm leaves pushed photosynthetic capacity to new heights.
The reason for the success of this evolutionary step is that under relatively low atmospheric C02 conditions, like those existing at present, water transport efficiency and photosynthetic performance are tightly linked.
Therefore, adaptations that increase water transport will enhance maximum photosynthesis, exerting substantial evolutionary leverage over competing species.
The evolution of dense leaf venation in flowering plants, around 140-100 million years ago, was an event with profound significance for the continued evolution of flowering plants.
This step provided a ‘cretaceous productivity stimulus package’, which reverberated across the biosphere and led to these plants playing the fundamental role in the biological and atmospheric functions of the earth.
“Without this hydraulic system, we predict leaf photosynthesis would be two-fold lower then present,” said Brodribb.
“So, it is significant to note that without this evolutionary step land plants would not have the physical capacity to drive the high productivity that underpins modern terrestrial biology and human civilization,” he added. (ANI)
- A boost in plants' plumbing can make them grow faster - Feb 15, 2010
- Succulent plants emerged after Earth cooled, dried up - May 04, 2011
- Flowers make it a wetter, cooler world - Jun 17, 2010
- Flower power also makes tropics cooler, wetter - Jul 20, 2010
- New genetic study helps solve Darwin's mystery of evolution of flowering plants - Apr 11, 2011
- Man-made photosynthesis to boost food output - Feb 19, 2012
- Flowering plants keep tropics cooler, wetter - Jun 17, 2010
- Wildfires 'aided' early flowering plants - Sep 19, 2010
- How the world's first flowers evolved - Jan 02, 2010
- Loch fossils show how photosynthesis, sexual reproduction started - Apr 14, 2011
- Plants initiated evolutionary drama of Earth's oxygenation - Oct 09, 2010
- Plant develops echo to attract bats - Aug 02, 2011
- Modern-day genomes used to reconstruct evolution of 3bn-yr-old microbes - Dec 20, 2010
- How did higher life on Earth evolve? - Jun 04, 2010
- DNA sequencing unlocks 100 mln yrs of flowering plants' evolution - Feb 24, 2010
Tags: 100 million years, angiosperm, dr taylor, dr tim, evolutionary step, evolutionary transformation, flowering plants, fundamental role, hydraulic capacity, leaf venation, maximum photosynthesis, photosynthetic capacity, plant physiology, profound significance, seed plants, stimulus package, taylor field, transport efficiency, university of tasmania, water transport