Paleo-Myth Number 5: Cenozoic: The Age of Mammals?

Speak of the Cenozoic (New Life) and you implicitly speak of what is commonly referred to as "the Age of Mammals". Although mammals were around during the Mesozoic and were very diverse in small size guilds- its only in the Mesozoic do we see them expand into large and dominant carnivores, herbivores, and omnivores. We also see expansion into the marine realm and a certain aberrant, bipedal ape became especially dominant and widespread during the Holocene. Certainly when one looks across the breadth of mammalian diversity one is astounded by the myriad forms: from shrew to bat to giraffe to beaked whale they are all mammals.

And this post is not discounting the obvious success mammals have sustained during this time period. But what it is addressing is how this notion- how the Cenozoic became synonymous with "The Age of Mammals"- has distorted our view of the relative ecological importance of other vertebrates during this time period- namely birds.

Now some of you reading this might be well aware that the Cenozoic always represented a significant expansion of Aves and especially Neognathene passerines- this post and the Paleo-Myth series is not necessarily aimed at you but at those perhaps less conscious of the importance of birds in the Cenozoic.

Chances are wherever you are at on the planet right now as you read this, if you step outside and just start counting species you will see more of and greater diversity of birds than mammals.

Consider this:

Most estimates place the number of extant bird species at about 10,000. Mammals? roughly half the number of species as birds at about 5,500 species. And of the mammal species alive the vast majority are rodents, bats, and shrews (red, blue, and yellow in the graph below).

So basically about 75% of all mammals can be characterized as being small, primarily nocturnal, and insectivorous/omnivorous- they basically have not changed a bunch from the Mesozoic. And if you look at the largest order Rodentia it comprises a little less than 2,500 species- or roughly half the amount of species that compromise Passerines at roughly 5,000. This comparison is especially telling as rodents and passerines do share a lot in terms of ecological overlap. And this diversity among birds is not slowing down, if anything it is picking up!

Looking at species diversity offers us one perspective on the bird vs mammal question. It should be noted that the peculiar adaptations and specializations of many birds might have a way of inflating bird species counts compared to mammals. Also because birds can be quite mobile they are able to fly off to different areas and speciate- unlike rodents. But the sheer number of bird species, compared to mammals, can not be ignored.

But lets look at biomass, as this may offer another perspective on the issue.

Tsavo. (c) Antero Topp. The most abundant bird, red-billed Quelea, vs largest land mammal, African Elephant

Now biomass estimates are tenuous at best and it is hard to estimate the population of even people- but lets look at the most common bird in the world- Africas Red-Billed Quelea (Quelea quelea). Estimates for the population range from 3 billion to up to 10 billion- pretty respectable numbers. But here the mammals probably have the birds beat. Most experts believe the brown rat (Rattus norvegicus) to be the only land based vertebrate to come close to humans in terms of biomass. Some estimate New York City alone to have a population of rats at up to 100 million! Ok so mammals hold the #1 and #2 spot for terrestrial vertebrate biomass- who come in at #3? a bird, the common chicken (Gallus gallus domesticus).

Another point to be made with the rodent question is that birds of prey- owls, falcons, hawks- and also birds like corvids, herons, gulls, and shrikes are the most important predatory control on exponential rodent growth in many habitats. And, unlike mammal predators, can converge from long distance to exploit areas with rodent plagues. They thus serve as a last line of defense for rodent scourges. Another point for the birds.

Another avenue to explore in regards to the bird/mammal debate is extent of ecological niches. Both extant and extinct forms of birds show that they have made significant ecological inroads into niches of large terrestrial herbivore and carnivore traditionally occupied by mammals. Examples include modern flightless birds (ostriches, rheas etc) and in the past phorusrhachids, moas, and elephant birds. But mammals have not yet exploited many niches that are the exclusive domain of birds. There are no soaring mammals that scavenge carcasses (vultures, condors etc). There are no mammals that exploit shores/intertidal zones to the extent the myriad waders, shorebirds etc do. There are no filter feeding freshwater or brackish water mammals like ducks, flamingoes, anseriformes etc. Birds show a much greater diversity in their insectivorous forms than mammals. Although bats are important pollinators, seed dispersal agents in some areas they are less successful/diverse than the myriad birds that perform these same functions. And there are no bats that exploit marine resources, unlike the myriad diversity of marine birds.

In short birds can often do the same tasks that mammals do when given a chance- but mammals do not seem to succeed in the areas where birds do exceptionally well.

The Cenozoic: The Age of Mammals and Birds

(c) Flip Nicklin

Pertinencia

Along with Humans, Who Else is in the 7 Billion Club?

Global Diversity of Birds in Space and Time

Influence of Predation on Rodent Population

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Cheilanthoid Ferns: Ferns in the Desert

Ferns in the desert? You must be kidding right, ferns live in shady, damp areas like steamy tropical rain-forests or old growth conifer forests of the Pacific northwest. But the desert, come on now.

A quick google search for desert ferns actually reveals a surprising diversity of desert and semi-desert ferns. Wait...what...ferns in the desert?

Chihuahua Mexico.Various desert ferns. Kirkland (c) 2006

Often referred to as chelanthoids, desert ferns are true xeric ferns showing a variety of adaptations towards reducing water loss. These adaptations include smaller leaf size, fewer and sunken stomatal crypts, waxy covering, hairs, curling during dry spells and the ability in some species to completely desiccate and return to life with favorable conditions. Found in both the old and new world, a hotspot of diversity for chelanthoid ferns is the southwestern deserts of North America.

Cheilanthes parryi

The ability of these desert ferns to blend in and seemingly remain unnoticed belies there wonderful and particular desert adaptions. They often grow in rocky crevasses of specific rock types (limestone, quartz) or on the north side of rocks. cacti etc- little tiny microhabits within the desert landscape that capture that tiny little bit of extra moisture. Although never a dominant part of their landscape, cheilanthoids are surprisingly diverse at several hundred species. There radiation into xeric habits has not gone unnoticed as a potential model for how ferns may have played important roles in dry habitats during the Mesozoic (Kirkland, 2006). Indeed prior to the advent of angiosperms a diverse community of ferns and other plants such as club mosses likely would have served as the dominant groundcover plants during the Mesozoic in dry or seasonally dry habitats. We think of modern ferns as water loving or mesically adapted plants because angiosperms for the most part have taken over their former habits.

NPS. Cookie Ballou (c)

If I can be so bold as to imagine what these fern prairies or fern savannas were like my one word would be diversity. From my experience with ferns I have noticed that ferns will do very good, and need minimal care if they are in the right spot with the right light, soil, pH, etc etc- if not they will not succeed. And I believe this is a valid point to bring in when trying to imagine these fern dominated habitats- you would not see monotypic plains of one or even several species of ferns thriving like you do with grasses in modern prairies. Instead you would notice several dozens of species thriving in a mosaic fashion. Some would be like bracken fern, thriving in full sun in disturbed areas spreading with rhizomes. Some would be always associated with other plants, perhaps thriving on the north face of larger cycads. Some would be quite ephemeral and die back with drought conditions.

Astrolepsis cochisensis on limestone ridge. Mineralarts

And diversity was one of the key selling points for the recent naming of a genus of cheilanthoid fern after Lady Gaga. That and the bisexual nature of the ferns reproductive mode and that this species DNA base codes spell out G-A-G-A.

Lady Gaga and fern gametophyte. Duke Univesrsity (c)

Cheers!!!


Pertinencia

http://tolweb.org/cheilanthoids/133070

Krkland, James. Fruita Paleontological Area. 2006. New Mexico Museum of Natural History Bulletin.

Fern spore diversity and abundance in Australia during the Cretaceous

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