CLIMATE IN MESOZOIC ERA.

The Earth was hotter than it is today.

By

Dr. Nitish Priyadarshi

Geologist.

Email: nitish.priyadarshi@gmail.com

In recent years, the scenario of future global environment is haunting the man as the present environmental changes (e.g. global warming) pose considerable danger to his own existence and environment. He is presently struggling to understand as to what will be the nature and extent of these changes in the next hundred years. In order to understand the processes of changes and the effects they are likely to have on the future environment of the biosphere, we should develop a historical perspective- a perspective based on global environmental changes preserved in the rocks of the planet earth.

The history of earth’s climate is characterized by change. Times of glaciation on the earth have been followed by warm intervals and the duration in years of both cold and warm intervals has varied by several orders of magnitude.

Climate change is changing the world. Either it is in the form of temperature rise or in the form of severe floods. Many times question arises in my mind whether this climate change is the outcome of present human activities on the earth or it has happened in early geological ages too. Answer is “yes” climate change has occurred several times from the beginning of the earth formation. Evidences are preserved in from of rocks, sediments, and fossils. Studying the records of past climate change will fill you like reading thriller novel in which every chapter is full of suspense and thrill. Every chapter of this novel denotes different geological periods with different stories of climate change.

Change is the only constant in the history of the earth. Since its creation around four billion years ago, our home planet has constantly been subjected to changes brought about by the interplay of internal of forces and external influences. The enormous lithospheric plates are continually shifting, reshaping the continents. Volcanic eruptions and earthquakes are the visible results of this process. Seen from the perspective of the history of the earth, our planet, as we know it today, is merely a snapshot in time. Everything is in a state of flux. Everything- including the climate- is locked in a continuous process of change, giving rise to favourable and unfavourable conditions to which all life on earth-human, plant and animal- must constantly adopt.

My article is about the climate conditions of the Mesozoic.

The term “Mesozoic” was introduced by John Phillips in 1840 for the rock formations containing remains of “middle forms” of life. The Mesozoic Era that began at about 230 million years ago and closed at about 65 million years ago represents less than half the duration of the Palaeozoic Era. The Mesozoic Era has been further subdivided into Triassic, Jurassic and Cretaceous periods.

The lower boundary of the Mesozoic is set by the Permian–Triassic extinction event, during which approximately 90% to 96% of marine species and 70% of terrestrial vertebrates became extinct. It is also known as the "Great Dying" because it is considered the largest mass extinction in the Earth's history. The upper boundary of the Mesozoic is set at the Cretaceous–Paleogene extinction event (or K–Pg extinction event), which may have been caused by an asteroid impactor that created Chicxulub Crater on the Yucatán Peninsula. Towards the Late Cretaceous, large volcanic eruptions are also believed to have contributed to the Cretaceous–Paleogene extinction event. Approximately 50% of all genera became extinct, including all of the non-avian dinosaurs.

Pangaea was characterized by extreme climate variations because it was such a huge continent. The coastal areas near Equator had a monsoon climate with summer rain, while its interior areas were dry and desert-like. Pangaea was a many times larger continent than Eurasia, most likely with an even more pronounced continental climate. One cannot doubt that winters in central Pangaea must have been very harsh experiences, and summers must have been insufferable glowing hot. There were no actual ice ages during Mesozoic. Pangaea was the largest continent ever, and it was surrounded by an equally huge ocean that was the Panthalassic Sea, which covered the rest of Earth's surface. It is believed that the shores of Pangaea must have been exposed to very strong monsoon winds.

Three of the five largest mass extinctions in Earth history are associated with the Mesozoic: a mass extinction occurred at the boundary between the Mesozoic and the preceding Paleozoic; another occurred within the Mesozoic at the end of the Triassic Period; and a third occurred at the boundary between the Mesozoic and subsequent Cenozoic, resulting in the demise of the dinosaurs.

Perhaps the largest number of palaeogeographic reconstructions have been made for the Mesozoic Era. In many parts of the world, the Era began with a new phase of sedimentation . Pangaea, the supercontinent of the Palaeozoic Era was gradually torn apart during the Mesozoic Era. Fragmentation of the Pangaea began with the opening of proto-Atlantic and proto-Indian oceans. On the basis of the palaeo-magnetic evidence, it has been suggested that that this break- up began with the separation of North America and Gondwana Land in  Late Triassic Epoch.  The Mesozoic was a time of significant tectonic, climate, and evolutionary activity.  

The climate of the Mesozoic was varied, alternating between warming and cooling periods. Overall, however, the Earth was hotter than it is today. We can also say that “Earth’s climate during the Mesozoic Era was generally warm, and there was less difference in temperature between equatorial and polar latitudes than there is today”.   The Mesozoic is characterized by a warm and humid Earth. Oxygen levels were very similar to today’s levels, thanks to the large coniferous forests that proliferated in the early Triassic period but were replaced by Angiospermae forests in the early Cretaceous.

We pass from a dry and arid climate at the beginning of the Triassic as we leave an extinction that left the continents dry, to still warm climates but with greater humidity at the beginning of the Jurassic and remain so until the end of the Cretaceous. It is thought that in the Cretaceous, the North Pole was able to hold ice in winter.

Dinosaurs first appeared in the Mid-Triassic, and became the dominant terrestrial vertebrates in the Late Triassic or Early Jurassic, occupying this position for about 150 or 135 million years until their demise at the end of the Cretaceous. Birds first appeared in the Jurassic (however, true toothless birds appeared first in the Cretaceous), having evolved from a branch of Theropod dinosaurs.

Pangaea began breaking up at the end of the Triassic. Between North America and Africa, volcanoes were spewing out large amounts of alkaline lava, which can be found on both continents. It is assumed that this volcano disaster initiated another round of extinction of up to 80% of Earth's species, and thus paved the way for the dinosaurs that came to dominate the Earth in the next hundred million years. Some believe that the root cause of species extinction was that the intense volcanic activity volcanoes emitted so much CO2 that the Earth's temperature rose dramatically so that the heat was the real killer that wiped out so many species.

Jurassic began 213 million years ago and lasted until 144 million years before present, a total of 69 million years. The gradual break-up of Pangaea that began in the late Triassic, continued in Jurassic. The climate of the new and smaller continents was milder and more rainy. Hot and humid tropical breezes blew through dense forests of ferns, cycads, ginkgo trees and various conifers.

Since large parts of the Earth's surface were covered by water and green plants, planet's albedo decreased, and more of the Sun's energy was absorbed as heat. The increased atmospheric moisture content also helped to increase the temperature, because water vapor is a greenhouse gas.

There is strong evidence that the sea surface level in the World increased during the Jurassic, which meant that many low-lying areas were transformed into shallow coastal sea, and in the same time the climate became more oceanic, that is wetter, warmer and with much less seasonal variation.

The Cretaceous period began 145 million years ago and lasted until the dinosaur extinction 65 million years ago. During this period prevailed almost everywhere on Earth a warm and humid climate. The thick layer of chalk, which was created by the microscopic calcareous algae that have been found in abundance throughout the Earth's oceans, gave its name to the period. Up until then, chalk deposits had been restricted to shallow coastal waters.

By the middle of the Cretaceous period about 100 million years ago, the mean- temperature on the planet's surface was between 6 and 12 degrees higher than it is today. The annual mean temperature in the Arctic was about 10 degrees, which is about 20 degrees warmer than today. In the tropical regions, the surface water temperature was approx. 5 to 10 degrees higher than the present.

The environment was unusually warm and polar ice caps did not yet exist. This played a large part in evolution and is a key factor behind the flourishing of the dinosaurs. During the Triassic period the climate was generally dry, which changed near the Jurassic period as oceans began to rise due to mounting layers of magma covering the seafloor. As a result, flooding overtook many parts of the exposed land. This allowed the climate to change with increased humidity and it continued that way even into the Cretaceous period. However, the climate began to cool during the Cretaceous although temperatures may have risen again near the end of the Mesozoic.

Understanding how the Earth responded to past extreme warming and CO₂ input can help us prepare for how the planet will respond to current, human-caused climate change.

References:

K. Ravindra, 1988. Fundamentals of historical geology and stratigraphy of India. Wiley eastern limited, New Delhi.

https://www.britannica.com/science/Mesozoic-Era

http://www.dandebat.dk/eng-klima3.htm

http://nitishpriyadarshi.blogspot.com/2012/09/climate-which-changed-world-56-million.html

https://nitishpriyadarshi.blogspot.com/2007/12/climate-change-is-not-recent-phenomenon.html

Geological report on importance of rain water harvesting in selected areas of Ranchi city,India.

Dependency on groundwater for drinking and domestic purpose has increased.

By

Dr. Nitish Priyadarshi

Geologist.

nitish.priyadarshi@gmail.com

Introduction:

Water is essential for life- all living organisms contain water. In fact most living organisms consist of over 60 percent water.

Through out his brief history on earth, man has depended on three basic natural resources for his survival: air, land and water. Of these three, none has been more abused and neglected by man than water. Yet without water, the land produces nothing; without water, life vanishes from the face of the earth. Civilizations arose and have prospered for millennia where water was abundant. The Nile valley is a prime example. When water disappeared, civilizations withered and died. Mesopotamia is a classic example.

The utter human dependence on water is exemplified by the fact that man can survive for five weeks without food, but he dies after only five days without water. If the water supply of a human being is cut off for just a few days, he will die of dehydration long before the water is completely evaporated from his body. Water vapor is lost with every breath, and we cannot avoid breathing.

In recent years due to increasing contamination of surface water bodies, dependency on groundwater for drinking and domestic purpose has increased many fold. But these water sources are now badly affected with global warming. Groundwater is depleting day by day due to effect of rising temperature and urbanization.

The excess soil moisture that saturates subsurface soil or rock and migrates downward under the influence of gravity. In the literal sense, all water below the ground surface is groundwater; in hydrogeologic terms, however, the top of this saturated zone is called the water table, and the water below the water table is called groundwater.

Ranchi the capital city of Jharkhand state of India is located at 23.350 N and 85.330 E. The total area covered by Ranchi-Municipal area is about 141 square kilometers and the average elevation of the city is 645 m above Mean Sea Level (MSL). As of 2001 India census Ranchi had a population of 846,454.

Water supply, in adequate quantity and at desirable quality, is essential for any sustainable urbanization. Water supply in Ranchi dates back to more than 50 years ago.

There are three main dams ( Hatia, Rukka, and Kanke dam) from where the water is supplied to the city. Surface water is always vulnerable to pollution. People of Ranchi are dependent more on purer source like groundwater. Of the total consumption more than 60% comes from groundwater storage. Due to increasing population more pressure has developed on groundwater from the aquifer beneath the city.

The process of urbanization and industrialization from last 20 years has caused changes in the water table as a result of decreased recharge and increased withdrawal. Many of the small ponds which were main source of water in the surrounding areas are now filled for different construction purpose affecting the water table. Lots of DEEP- BORING in the Ranchi city has also forced the water table to move down as well as Ranchi plateau.

Groundwater in Ranchi city:

Groundwater in Ranchi city is mainly stored here in secondary porosity features or void spaces developed as result of weathering, fracturing, jointing, shearing or faulting phenomena. The gneisses and granitic rocks with associated schists and quartzites constitute the main consolidated rock terrain of Ranchi district.

Major portion of Ranchi city which is part of the Chotanagpur Plateau occupied by hard rock which are devoid of primary porosity and occurrence and movement of groundwater is controlled by the joints, fractures and fissures present in them.

During the long span of geological history these rocks have been deformed and tectonised in many ways including deep erosion.

In Ranchi city water table in the consolidated formations is now at its lowest from April to June. Water table is at its highest peak during August, gradually stabilizing in the month of November.

Sources of groundwater recharge in Ranchi city and the other parts of Jharkhand State is the vertical percolation of rain water. Although city experiences about 1000 to 1200 mm rainfall annually, the rate of vertical percolation is hindered by the presence of highly weathered and metamorphosed rocks. The Ranchi plateau gradually slopes down towards south east into the hilly and undulating region of Singhbhum. Due to this uneven topography the rain water are lost through surface runoff resulting in less water percolation below the surface. The thin soil layer of Ranchi plateau which is becoming more thin due to weathering is gradually loosing its water retaining capacity, Moreover, present land development practices in the recharge area and natural canals or rivulets in and around the city is also reducing the natural recharge significantly. More than 40% of the rain water is lost in the form of surface runoff. The rate of decline ranges between 1m/year to 5m/year at different observation locations within the city.

As Ranchi is becoming one of the important business center in Eastern India there is a rampant increase in construction and expansion of city. Due to inadequate water supply from the dams, dependency on ground water is increasing. Over pressed zones are Upper Bazar, Main Road, Ratu Road, Piska More, Chutia, Hindhpirhi, Circular Road, Burdwan Compound, Lalpur and Harmu Road.

Objective:

The main objectives of Rain Water Harvesting are:-

• Increasing the availability of ground water during periods of requirement.

•Preventing depletion of ground water reservoirs in areas of over exploitation.

• Improving quality of ground water through dilution.

Rainwater harvesting is the collection, storage and injecting precipitation  down in the earth of  for later human use. This project focuses on the selection of the site and rainwater harvesting system located at the different rickshaw pullers garage located in different areas of Ratu road and Piska more in Ranchi city. The information collected  from this project will be used to build a template for designing a rain water harvesting system that can be placed in the selected areas.

                                    Fig.1 Depletion of ground water.

                                  Fig. 2. Structure of rain water harvesting.

Fig.3. Depleted water in a well in Piska More, Ranchi.

Rickshaw pullers are the most affected people as they are more dependent on surface and well water which is polluted and gets dry in summer season.

Till about thirty years back, the areas surveyed used to be unpaved and the rain falling on these areas would percolate into soil and remain there for being drawn through shallow open wells. With the proliferation of flat complexes, these areas been covered, resulting in stopping of percolation of rain water into the soil. But on the other hand the use of ground water has risen immensely. With Increase in the number of deep bore wells, the shallow wells started drying up. The reason is that no sincere attempt was made to re- establish the ground water table to its original level during monsoons.

Rooftop rain water harvesting was suggested in the surveyed areas. Out of 30 sites 10 sites were selected as the rickshaw pullers were using dug well waters for their daily purpose. Rooftop catchments is  the most basic form of this technology, rainwater is collected in simple vessels at the edge of the roof. Variations on this basic approach include collection of rainwater in gutters which drain to the collection vessel through down-pipes constructed for this purpose, and/or the diversion of rainwater from the gutters to the settling  tanks/percolation tank or absorption tank  filled with sands and cobbles and pebbles working as water filters. As the rooftop is the main catchment area, the amount and quality of rainwater collected depends on the area and type of roofing material. Reasonably pure rainwater can be collected from roofs constructed with galvanized corrugated iron, aluminum or asbestos cement sheets, tiles and slates.  Roofs with metallic paint or other coatings are not recommended as they may impart tastes or color to the collected water. Roof catchments should also be cleaned regularly to remove dust, leaves and bird droppings so as to maintain the quality of the water.

Settling tanks for collecting rainwater harvested using guttering may be either above or below the ground. Precautions required in the use of se tanks include provision of an adequate enclosure to minimize contamination from human, animal or other environmental contaminants, and a tight cover to prevent algal growth and the breeding of mosquitoes.

Sr.No	Garage Name	Garage owner name	Address	No.of rickshaw pullers staying  in the garage	Water Harvesting status	Remarks	Date of visit
1	Vijay	Vijay Tirkey	Near Krishi Bazar, Pandra, Ranchi	50	Yes; Important		29-01-2018
2	Amit	Amit kr. Bhagat	Piska More	70	Yes; Important		29-01-2018
3	SLK	Suresh Kachhap	Piska More	15	No	Shed not much and well is not owned by owner but garage owner has himself made some water harvesting system.	29-01-2018
4	Pawan	Pawan Sharma	Piska More	40	Yes		29-01-2018
5	BPK	Suresh	Karam toli	40	No	Has naturally available water resources which maintains the water level.	29-01-2018
6	JPB	Jagdish Bagla	Piska More	20	Yes; Important		30-01-2018
7	Guddu	Rajiv Agarwal	Near Uphar cinema, Ratu road	30	No	Consist of self built water system which maintains water level	30-01-2018
8	Mitu	Jayant Agarwal	Near Uphar cinema, Ratu road	30	No	Land too low so naturally land absorbs water, sheds are not available in much	30-01-2018
9	MPS	Madhukar Singh	Near Pahadi Mandir	25	No	No well; no boring and monthly rented land	30-01-2018
10	Sunil	Sunil Yadav	Near Pahadi Mandir	50	No	Less possibility of holding rain water	30-01-2018

Acknowledgement:

This survey was carried out with the help of Mrs. Aprajita Mishra and Smita Dasgupta of Maitri India, Ranchi.

Are we moving towards global cooling or we are passing through major warming period?

Does the concept vary from season to season in the mind of the mass?

By

Dr. Nitish Priyadarshi

Geologist.

Total northern hemisphere is reeling under cold wave. Most part of the area is under thick cover of ice and snow. People are being killed due to severe cold waves. Lakes are freeze; leaves are drooping down due to the loads of the snow. Every where its white cover. Where there is no snow cold waves are showing impact on the population. Agriculture fields are under threat of frost bite. In India scores of people have been killed due to chilling wind and dropping of temperature. People like me are not able to understand whether we are moving towards global cooling or we are passing through major global warming period.  

When ever I talk about global warming concept today people are confused. They ask questions, why you are talking about global warming when it’s too cold. They are not easily accepting the concept of warming in chilling cold. It’s totally opposite in peak warm season. People put question mark on global cooling. They easily accept the concept of global warming. Does the concept vary from season to season in the mind of the mass? Every body can’t have scientific concept. Their thinking on the global warming or global cooling vary from hot to cold and cold to hot season. Even the media avoid doing the story on global warming in winter season.

Now a day’s media is also playing a big role in floating the concept, causes and effect of global warming. When I was in school I never heard of any such words like global warming or global cooling. We use to enjoy every season without any thought or any fear of climate change.

Every time a year is fixed to show that till that date or year there will be major changes on Earth ecosystem due to increasing green houses gases or global warming.  When the date passes without any major impact again other date is fixed.

It is not the question that how much we can believe on such predictions, but the question is can we predict the effects of global warming/cooling or climate change with accuracy? The way the increasing trend of global warming is shown or predicted, it seems that in coming 30 to 40 years earth will be totally devoid of any life and earth will die. I don’t think so.

Is really global warming is there or we are just exaggerating it? It is said that main cause of the global warming is due to increase in carbon dioxide level in the atmosphere.

Between 1940 and 1970, global temperatures went down slightly, even though carbon dioxide levels went up. This has been attributed to the cooling effect of sulphate aerosols.

Studies of ice cores show that carbon dioxide levels rise and fall with or after (as much as 1000 years) temperature variations. This argument assumes that current climate change can be expected to be similar to past climate change.

Most computer models suggest that the globe will warm up 1.5 degree centigrade to 4.5 degree centigrade if carbon dioxide reaches the predicted level of 600 ppm by the 2050. Although this may be largely true, there are other possible mechanisms that could act in the opposite direction. For instance the sulphate aerosols-the tiny bit of dust that are also added to the atmosphere when fossil fuels are burned by human activity, may cool the climate. The aerosols reflect away the sun’s radiation. Thus, they partially counter the warming that may be caused by the greenhouse gases. However, the degree to which these emissions might reduce the impact of greenhouse gases is not yet fully understood.

Other theory says that, in the past million years, the Earth experienced a major ice age about every 100,000 years. Scientists have several theories to explain this glacial cycle, but new research suggests the primary driving force is all in how the planet leans.

The Earth's rotation axis is not perpendicular to the plane in which it orbits the Sun. It's offset by 23.5 degrees. This tilt, or obliquity, explains why we have seasons and why places above the Arctic Circle have 24-hour darkness in winter and constant sunlight in the summer. Tilt varies between 21.5 and 24.5 degrees over a cycle of roughly 41,000 years. The greater the tilt, the more the seasonal imbalance in heat delivery from the Sun and the less the chance of ice remaining through the summer in temperate climates. At present we are near a neutral point between the extremes of this oscillation of tilt, thus neither favouring nor promoting an ice age.

Scientists who assess the planet’s health see indisputable evidence that earth has been getting warmer, in some cases rapidly. Most believe that human activity, in particular the burning of fossil fuels and the resulting buildup of green house gases in the atmosphere, have influenced this warming trend. In the past decades scientists have documented record-high average annual surface temperatures and have been observing other signs of change all over the planet: in the distribution of ice, and in the salinity, levels, and temperatures of the oceans.

Everywhere on earth ice is changing. The famed snows of Kilimanjaro have melted more than 80 percent since 1912. Glaciers in the Garhwal Himalayas in India are retreating so fast that researchers believe that most central and eastern Himalayan could virtually disappear by 2035. Artic sea ice has thinned significantly over the fast half century, and its extent has declined by about 10 percent in the past 30 years.

This is one of the aspect of the global warming which most of scientists believe is man made. There is small minority of atmospheric and other scientists who disagree with this general scientific consensus. According to these scientists we still know too little about natural climate variables that could change the assessment (up or down). In addition, computer models used to predict climate change are improving but still are not reliable.

They also point out that some signs of global warming may not necessarily be caused by human activities. For example, while many glaciers are shrinking, others are growing. Also, glaciers shrink and grow naturally over long periods of time for reasons that are largely unknown.

Finally, they contend that global warming may be a lot less damaging than many people think and can be beneficial for some regions. For example, some countries may be able to increase crop productivity because of more rainfall and longer growing seasons.

They also claim that more carbon dioxide in the atmosphere could increase the rate of photosynthesis in areas with adequate amounts of water and other soil nutrients. This would remove more carbon dioxide from the atmosphere and help slow atmospheric warming.

The history of earth’s climate is characterized by change. Times of glaciations on the earth have been followed by warm intervals and the duration in years of both cold and warm intervals has varied by several orders of magnitude.

What ever may be the truth we have no options but we have to opt wait and watch theory.

Nature of the earth today is not fully understood. I am sure no one can say with accuracy what’s happening in the nature and also what’s going to happen in the future. It’s all the speculations and hypothesis.