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Quaternary science also played an important role in another area of science – [[archaeology]]. Archaeology is the field of science which uses material remains to study the human past. There are many types of archaeology as this field of study is a diverse field. Some archaeologists study the remains of the human – [[bioarchaeology]], some study the ancient plants – [[paleoethnobotany]], and some even study the [[Stone tool|stone tools]]. Furthermore, not every archaeologist is specialized in the same area, some archaeologist specialized in technologies which help located a map or sites, while some are a specialist in studying human remains underwater.<ref>{{Cite web|last=|first=|date=|title=What is Archaeology?|url=https://www.saa.org/about-archaeology/what-is-archaeology|url-status=live|archive-url=|archive-date=|access-date=2020-10-29|website=Society for American Archaeology|language=en}}</ref>  Quaternary science has offered a precise and comprehensive framework to human studies which help the global interpretation of the [[Archaeological record|archaeological records]] in the field of archaeology. For an illustration, some of the commonly known frameworks which contributed to the global interpretation of the records are [[chronology]], palaeoenvironmental background and site formation processes.<ref name=":2">{{Cite journal|last=Vannieuwenhuyse|first=Dorcas|date=2014|title=Role of Quaternary science in archaeology|url=|journal=Quaternary Australasia|volume=31|issue=2|pages=9-10|via=}}</ref>
Quaternary science also played an important role in another area of science – [[archaeology]]. Archaeology is the field of science which uses material remains to study the human past. There are many types of archaeology as this field of study is a diverse field. Some archaeologists study the remains of the human – [[bioarchaeology]], some study the ancient plants – [[paleoethnobotany]], and some even study the [[Stone tool|stone tools]]. Furthermore, not every archaeologist is specialized in the same area, some archaeologist specialized in technologies which help located a map or sites, while some are a specialist in studying human remains underwater.<ref>{{Cite web|last=|first=|date=|title=What is Archaeology?|url=https://www.saa.org/about-archaeology/what-is-archaeology|url-status=live|archive-url=|archive-date=|access-date=2020-10-29|website=Society for American Archaeology|language=en}}</ref>  Quaternary science has offered a precise and comprehensive framework to human studies which help the global interpretation of the [[Archaeological record|archaeological records]] in the field of archaeology. For an illustration, some of the commonly known frameworks which contributed to the global interpretation of the records are [[chronology]], palaeoenvironmental background and site formation processes.<ref name=":2">{{Cite journal|last=Vannieuwenhuyse|first=Dorcas|date=2014|title=Role of Quaternary science in archaeology|url=|journal=Quaternary Australasia|volume=31|issue=2|pages=9-10|via=}}</ref>


One of the important focuses of quaternary science in archaeology is the study of geochronology. Geochronology is the study of science concerning the ages and dates of Earth’s material (e.g. rocks, fossils, and etc.) and events.<ref>{{Cite web|last=|first=|date=2020|title=Geochronology|url=https://serc.carleton.edu/NAGTWorkshops/time/geochronology.html|url-status=live|archive-url=|archive-date=|access-date=2020-10-31|website=Rates and Time|language=en}}</ref> This area of research was deemed to be very significant to the archaeology of Indigenous Australia due to the fact that there are very few cultural markers that can be used for the relative chronology. The relative chronology in archaeology is normally used in places that are easily identified on the archaeological records and have a strong differentiation in cultural productions. In addition to focusing on geochronology, the key role of quaternary science to archaeology is to help the archaeologists in resolving some of their major problems relating to its impact on the surrounding environment, the colonization of human in the past, cultural productions, and its mobility. Quaternary science offers the archaeologist invaluable data which assist them in further understanding the environment and landscape which involved the evolution of the humans during the late quaternary period.<ref name=":2" />
One of the important focuses of quaternary science in archaeology is the study of [[geochronology]]. Geochronology is the study of science concerning the ages and dates of Earth’s material (e.g. rocks, fossils, and etc.) and events.<ref>{{Cite web|last=|first=|date=2020|title=Geochronology|url=https://serc.carleton.edu/NAGTWorkshops/time/geochronology.html|url-status=live|archive-url=|archive-date=|access-date=2020-10-31|website=Rates and Time|language=en}}</ref> This area of research was deemed to be very significant to the archaeology of [[Indigenous Australians|Indigenous Australia]] due to the fact that there are very few cultural markers that can be used for the relative chronology. The relative chronology in archaeology is normally used in places that are easily identified on the archaeological records and have a strong differentiation in cultural productions. In addition to focusing on geochronology, the key role of quaternary science to archaeology is to help the archaeologists in resolving some of their major problems relating to its impact on the surrounding environment, the [[Colonization|colonization of human]] in the past, cultural productions, and its mobility. Quaternary science offers the archaeologist invaluable data which assist them in further understanding the environment and landscape which involved the evolution of the humans during the late quaternary period.<ref name=":2" />


==Impact of Quaternary Science to our life==
==Impact of Quaternary Science to our life==

Revision as of 13:42, 1 November 2020

Quaternary science is the study which represents the systematic study of the quaternary period or as we all know as the ice age. The Quaternary period is a time period that started around 2.6 million years ago till now.[1] They are formed by the two epochsPleistocene Epoch and the Holocene Epoch. The aim of quaternary science is to understand everything that had happened during the Pleistocene Epoch and the Holocene Epoch in order to be able to acquire fundamental knowledge about our environment, ecosystem, climate changes, and etc. Most quaternary scientists studied the history of quaternary in order to predict the upcoming or future changes in climate. Quaternary science was first studied during the nineteenth century by Georges Cuvier, a French scientist.

What is Quaternary Science

The quaternary science is the systematic study of the quaternary period and a rapidly changing field. Thus, there are always new researches coming up to prove it (e.g. new dating technique, new way to analyze a smaller size of radiocarbon, and etc.). Quaternary science is a field of study which involve the World's geography, biology, chemistry, and physics.[2] However, its focus is during the Quaternary period - a time period that start around 2.6 million years ago to the present day.[1] The planet that we are current living in, was mostly shaped by the events that occurred during the quaternary period – the time of the ice ages. The purpose of quaternary science is to understand what happened during the ice ages; quaternary scientists are connected to each other through their common desire to know and understand the history of the Earth during the last 2.6 million years. After all, we won’t be able to understand the current ecosystem’s function without any fundamental knowledge of their history, nor are we able to predict the climate changes. We should never forget that we’re presently living in the time where the climates are changing at an alarming rate. The only way we would be able to accurately predict the effect of global warming to the changes in climate and its effect on our ecosystem is to look at our history for any comparably strong, and rapid changes that occur in the past.[2]  

History of Quaternary Science

The quaternary period was a geologic time period that could be separated into two epochs – Pleistocene (“most recent”) Epoch, which is often defined as the time period that began around 2.6 million years ago to approximately around 11,700 years ago, and the Holocene (“wholly modern”) Epoch, which began around 11,700 years ago right after the Pleistocene Epoch.[3][4] While the study of Quaternary science actually began around the late eighteenth century in Europe, its study only truly started to develop and expand during the twentieth century when many significant sub-disciplines of quaternary science – such as palaeoecology, palaeontology, and palaeoclimatology, emerged as an approach in order to reveal the relationship between the changes in the environment and this planet’s history during its quaternary period. Initially, the term “quaternary” was used by an Italian engineer – Giovanni Arduino, to describe the four most recent geologic eras. It was only later on that it became clear that the term ‘Quaternary’ was as described by Meadows and Finch (2016) as “a phrase of highly variable climates, with marked periods of time when global temperatures were significantly lower than today and evidence for which was interpreted by Louis Agassiz as indications of a geologically recent ‘Great Ice Age’”.[2][5]

The study of quaternary science was first demonstrated by an early nineteenth century French scientist – Georges Cuvier. He proposed that the extinctions of some animals that once lived in the Pleistocene epoch were due to them being wiped out by some environmental ‘revolution’ (e.g. some catastrophic flooding events). It was this revelation that made him famous in that era for establishing that extinction is real.[2]  

Studies of Quaternary Science in the present time

There are many studies of quaternary science being researched in the present. As stated before, quaternary science is rapidly changing field, hence why there are always new researches being studied and published – providing evidences and establishing new techniques. One of the latest researches was the study about the “Late Pleistocene–Holocene environmental and climatic history of a freshwater paramo ecosystem in the northern Andes” where the researchers study the palaeoclimatic history of the Northern South America based on the palaeolimnological reconstruction of a pond.[6] Another recent study would be the study of “Molecular fossils as a tool for tracking Holocene sea‐level change in the Loch of Stenness, Orkney” by Conti, Bates, Preece, Penkman, and Keely (2020), in which they study how molecular fossils could be used as an approach to study past sea-level change.[7] There are still many more researches being done right now. After all, quaternary science is the study of our history spanning the last 2.6 million years, there are so many things left to be discovered.

Quaternary science also played an important role in another area of science – archaeology. Archaeology is the field of science which uses material remains to study the human past. There are many types of archaeology as this field of study is a diverse field. Some archaeologists study the remains of the human – bioarchaeology, some study the ancient plants – paleoethnobotany, and some even study the stone tools. Furthermore, not every archaeologist is specialized in the same area, some archaeologist specialized in technologies which help located a map or sites, while some are a specialist in studying human remains underwater.[8]  Quaternary science has offered a precise and comprehensive framework to human studies which help the global interpretation of the archaeological records in the field of archaeology. For an illustration, some of the commonly known frameworks which contributed to the global interpretation of the records are chronology, palaeoenvironmental background and site formation processes.[9]

One of the important focuses of quaternary science in archaeology is the study of geochronology. Geochronology is the study of science concerning the ages and dates of Earth’s material (e.g. rocks, fossils, and etc.) and events.[10] This area of research was deemed to be very significant to the archaeology of Indigenous Australia due to the fact that there are very few cultural markers that can be used for the relative chronology. The relative chronology in archaeology is normally used in places that are easily identified on the archaeological records and have a strong differentiation in cultural productions. In addition to focusing on geochronology, the key role of quaternary science to archaeology is to help the archaeologists in resolving some of their major problems relating to its impact on the surrounding environment, the colonization of human in the past, cultural productions, and its mobility. Quaternary science offers the archaeologist invaluable data which assist them in further understanding the environment and landscape which involved the evolution of the humans during the late quaternary period.[9]

Impact of Quaternary Science to our life

Quaternary science has affected us in many ways more than we’ve ever known. The impact of quaternary can range from many things such as the impact of the climate changes on animals and human, adaptation of living organisms, human evolution, and etc. Species’ adapting to new changes is a sign that it has been impacted by something. In this case, it is how organisms respond to climate changes. To be able to live, develop, and continue to reproduce, every species relies on upon its ecological requirements – including their environmental factors (climates, geology, and etc.). However, not all species respond in the same ways when changes happened. Adaptation allows species to evolve to be able to live in the same place despite the climate change. Some adaptation even involved genetic modification. The impact climate shift caused species to modify its genome in order to survive.

Academic journals

Main category: Quaternary science journals

See also

References

  1. ^ a b Bagley, Mary (February 2014). "Quaternary Period: Climate, Animals & Other Facts". livescience.com. Retrieved 2020-09-30.{{cite web}}: CS1 maint: url-status (link)
  2. ^ a b c d Elias, Scott (2007). Encyclopedia of quaternary science (1st ed.). Elsevier.
  3. ^ Bagley, Mary (March 2013). "Holocene Epoch: The Age of Man". livescience.com. Retrieved 2020-10-06.{{cite web}}: CS1 maint: url-status (link)
  4. ^ Zimmermann, Kim Ann (August 2017). "Pleistocene Epoch: Facts About the Last Ice Age". livescience.com. Retrieved 2020-10-29.{{cite web}}: CS1 maint: url-status (link)
  5. ^ Meadows, Michael E; Finch, Jemma M (2016). "The history and development of Quaternary Science in South Africa". South African Geographical Journal. 98 (3): 472–482. doi:10.1080/03736245.2016.1208587. ISSN 0373-6245.
  6. ^ Patiño, Luisa; Velez, Maria Isabel; Weber, Marion; Velásquez‐r, César A.; David, Santiago; Rueda, Manuela; Castañeda, Ivonne; Arboleda, Diana (2020-09-30). "Late Pleistocene–Holocene environmental and climatic history of a freshwater paramo ecosystem in the northern Andes". Journal of Quaternary Science. 35 (8): 1046–1056. doi:10.1002/jqs.3249. ISSN 0267-8179.
  7. ^ Conti, Martina L. G.; Bates, Martin R.; Preece, Richard C.; Penkman, Kirsty E. H.; Keely, Brendan J (2020). "Molecular fossils as a tool for tracking Holocene sea‐level change in the Loch of Stenness, Orkney". Journal of Quaternary Science. 35 (7): 881–891 – via Wiley Online Library.
  8. ^ "What is Archaeology?". Society for American Archaeology. Retrieved 2020-10-29.{{cite web}}: CS1 maint: url-status (link)
  9. ^ a b Vannieuwenhuyse, Dorcas (2014). "Role of Quaternary science in archaeology". Quaternary Australasia. 31 (2): 9–10.
  10. ^ "Geochronology". Rates and Time. 2020. Retrieved 2020-10-31.{{cite web}}: CS1 maint: url-status (link)


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