Possible causes include an increase in marine oxygen content, or global cooling.
Tectonic activity The dispersed positions of the continents, high level of tectonic/volcanic activity, warm climate, and high CO2 levels would have created a large, nutrient-rich
ecospace, favoring diversification. with the
Taconic orogeny in particular being singled out as a driver of the GOBE by enabling greater erosion of nutrients such as iron and phosphorus and their delivery to the oceans around
Laurentia. The widespread reef development on the
Baltican shelf in particular is attributable to the landmass's northward drift into more
oligotrophic waters, enabling diversification of its reef biota. Widespread volcanism and its delivery of biologically important trace metals has similarly been proposed as a GOBE trigger, albeit controversially.
Global cooling On the other hand, global cooling has also been offered as a cause of the radiation, with long-term biodiversity trends showing a positive correlation between cooling and biodiversity during GOBE. An uptick in
fossil diversity correlates with the increasing abundance of cool-water
carbonates over the course of this time interval. A transient high magnitude shift towards more positive carbon isotope ratios during the
Floian may reflect the initiation of a cooling through organic carbon burial that has been proposed to have kickstarted GOBE. In the longer term as well, increasing carbon isotope ratios track biodiversity increase, further pointing to a link between cooling and GOBE. The cooling during the Middle and early Late Ordovician in particular is known for its associated burst of biodiversification. The volcanic activity that created the
Flat Landing Brook Formation in
New Brunswick, Canada, may have caused rapid climatic cooling and biodiversification.
Oxygenation Thallium isotope shifts show an expansion of oxic waters throughout deep water and shallow shelf environments during the latest Cambrian and earliest Ordovician coeval with increasing burrowing depth and complexity observed among ichnofossils and increasing morphological complexity among body fossils. Thus, heightened oxygen availability may have been a key trigger for GOBE. Furthermore, Ordovician biodiversification pulses were closely linked to terminations of positive carbon isotope excursions, which are characteristic of anoxia, suggesting that diversification occurred in concert with increasing oxygen content. After the
Steptoean positive carbon isotope excursion about 500 million years ago, the extinction in the ocean would have opened up new niches for photosynthetic plankton, who would absorb from the atmosphere and release large amount of oxygen. More oxygen and a more diversified photosynthetic plankton as the bottom of the food chain, would have affected the diversity of higher marine organisms and their ecosystems. In the Middle to Late Ordovician, after GOBE, an expansion of anoxic waters occurred in sync with a ~50% decline in
benthic invertebrates in various epicontinental seas, providing further indirect support for a coupling of seawater oxygenation with Ordovician biodiversity.
Extraterrestrial impacts 467.5±0.28 million years ago. Although this is suggestive of a single large meteorite shower, the exact alignment of continental plates 470 million years ago is unknown and the exact timing of meteors is also unknown. Another alternative is that the breakup of an asteroid led to the Earth being consistently pummelled by meteorites, although the proposed
Ordovician meteor event happened at 467.5±0.28 million years ago. Another effect of a collision between two asteroids, possibly beyond the orbit of Mars, is a reduction in sunlight reaching the Earth's surface due to the vast dust clouds created. Evidence for this
geological event comes from the relative abundance of the isotope
helium-3, found in ocean sediments laid down at the time of the biodiversification event. The most likely cause of the production of high levels of helium-3 is the bombardment of
lithium by
cosmic rays, something which could only have happened to material which travelled through space. However, rather than sparking evolutionary diversification, other lines of evidence point to the Ordovician meteor event instead postdating the
Darriwilian biodiversity burst by about 600 kyr and the start of glaciation by 800 kyr. Instead of facilitating the radiation, the meteor event may have antagonistically acted to temporarily retard and halt biological diversification according to this thesis.
Positive feedbacks The above triggers would have been amplified by ecological escalation, whereby any new species would co-evolve with others, creating new niches through niche partitioning, trophic layering, or by providing a new habitat. As with the
Cambrian Explosion, it is likely that environmental changes drove the diversification of
plankton, which permitted an increase in diversity and abundance of plankton-feeding lifeforms, including suspension feeders on the sea floor, and
nektonic organisms in the
water column. ==Effects==