Philippine History Chapter IIGeolog

Philippine History
Chapter II

Geological Foundation: The Beginnings of the Filipino Society and Culture (Pre-Spanish Period)

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Chapter II- Philippine History : Geological Foundation


The beginnings of the Filipino society and culture can be viewed from the geological and paleontological studies conducted by Jocano in his book Philippines Pre-History: An Anthropological overview of the Beginnings of the Filipino Society and Culture provided comprehensive discussion along these areas. He viewed that tracing the emergence of man and the development of his culture in the Philippines is a complex task.It requires an inter-disciplinary approach. That is, data from disciplines other than archaeology are also important in shedding light on the intricate problem of reconstructing pre-historic life ways. Furthermore, he mentioned that prehistoric cultures were as much products adaptation to specific ecological niches as contemporary cultures are. This eventually led the structuring of the Filipino society and culture until finally made contacts with the Asian neighbors. The natural setting he presented also provided a comprehensive background about the geological foundation of the Philippines.11

The Comparative Geologic Time Scale in the Study of Geological Foundation of the Philippines

1. Archeozoic Period ( 1,500- 925 million years) – First traces of life form.

2. Proterozoic Period ( 925-570 million years)-Few simple life forms.

3. Paleozoic Period ( 570-225 milion years)
3.1 Cambrian ( 570-500 million years) - First abundant record of marine life.
3.2 Ordovician(500- 440 million years)- First fishes; invertebrates dominant
3.3 Silurian ( 440 – 395 million years) –First terrestrial plants and animals.
3.4 Devonian ( 395-345 million years) – First amphibians; fish abundant.
3.5 Carboniferous ( 345 – 280 million years)
3.5.1 Mississipian ( 345-320 million years) –Sharks and amphibians abundant; large scale trees and ferns.
3.5.2 Pennsylvanian (320-280 million years) – Great coal forests; conifers first reptiles.
3.6 Permian ( 280-225 million years) – Extinction of many kinds of marine animals.

4. Mesozoic Period
4.1 Triassic ( 225-190 million years) – First dinossaurs; abundant conifers.
4.2 Jurassic( 190-136 million years) – Fist birds, first mammals; dinossaurs abundant.
4.3 Cretaceous ( 136-53 million years)
4.3.1 Lower Cretaceous ( 136-110 million years) – First flowering plants; climax of dinosaurs.
4.3.2 Upper Cretaceous ( 110- 85 million years) – First placental mammals
4.3.3 Maestrichian (100- 65 million years ) First Primates
4.3.4 Paleocene ( 65-53 million years) Diversified hoofed mammal

5. Cenozoic Period
5.1 Tertiary ( 53 – 2 million years)
5.1.1 Eocene ( 53 –37 million years) – many modern types of mammals
5.1.2 Oligocene ( 37- 26 million years)- Large running mammals
5.1.3 Miocene ( 26-7 million years) First abundant grazing animals
5.1.4 Pliocene ( 7-2 million years) Large carnivoress

6. Pleistocene Period ( 500,000-9,000 years)
6.1 Lower Pleistocene( 2 million –500,000 years )
6.1.1 Villa Franchian ( Europe/ North America)
6.1.2 Gunz Glacial ( Europe)/ Jerseyan Glacial ( North America)
6.1.3 First Interglacial
6.1.4 Kanjeran Pluvial – for South and East Africa
6.2 Middle Pleistocene (500,000-105,000 years)
6.2.1 Mindel Glacial ( Europe) Kansan Glacial( North America) Interpluvial/ Kamasian Interfluvial for South and East Africa)
6.2.2 Second Interglacial
6.2.3 Riss Glacial ( Europe)/ Illinoian- Iowan Glacial ( North America) Interpluvial for South and East Africa
6.3 Upper Pleistocene ( 105,000 – 9.000 years)
6.3.1 Third Interglacial
6.3.2 Wurm Glacial for Europe and North America
6.3.3 Gamblian Pluvial for South and East Africa
6.4 Holocene ( 9,000 years and below)
6.4.1 Post Glacial for Europe and North America
6.4.2 Postpluvial for South and East Africa

Let me begin the discussion on the overview of the geological and paleontogical studies presented by Jocano in relation to the geologic time scale being be natural science to identify the era and epoch of development specifically on the land formation until finally to the migration and the structuring of Filipino.Geological and paleontological studies suggest that living things appeared on earth as early as 1,500 million years ago, during the era known in geology as Archeozoic period. This was foloowed by Proterozoic Period, the time when early life forms abounded on earth. The Proteozoic , as is known today, is estimated to have extended from 925 to 505 million years.Other scientists have lumped all of theseeras in geological history into one generalized time-scale as preCambiran.The most important materials on the evolution of man and his culture are found in the Cenozoic era or the age of more advanced forms of animals.12

The Tertiary is the period in the geological history of the earth when mammals, including primates became dominant. The two major events in the tertiary periods.

a) The earth surface underwent tremendous changes known to geologists as land uplift.

b) Land uplift was brought about radical changes in climatic and other ecological conditions favorable to mammalian adaptation.

According to Jagor before the Tertiary uplift most of such Asiatic areas as the Iranian plateau, Turkestan, Indian subcontinent, and Tibet were submerged under a sea known geologically as the Tethys sea. When the great uplift occurred as a result of such phenomena as volcanic eruptions and faulting due to crustal deformation, this ancient sea receded and shrank in size, part of which is now known as the Mediterranean. The scope of the movement of land in Asia is well – documented by the Eocene sediments of the tethys sea found about 20,000 feet above sea level in Tibet. One can form a good mental image of the world-wide elevation of the land that resulted form this massive uplift by referring to the present heights of the Alps, the Rockies, Andes, and the Everest mountain ranges. The high mountain ranges were formed during the tertiary.13

Basic Land Formation and Structure in the Philippines

Geologically, it was during the tertiary period that basic land structure of the Phillippines was defined, especially during the Eocene and Oligocene periods. Some scientists suggest that it was at the terminals period of the mesozoic. This suggestion is based on the presence of cherts and slates in many parts of the archipelago which contian unicellular forms belonging to the radiolarian fauna, which appeared probably during the Jurassic, middle Mesozoic Age.14 Basically, the framework of the Philippines was the same as it appears today, with slight modification as readjustment of island forms occurred in various phases of their geologic evolution. The causes of these readjustments are many; the best known are faulting and folding of the earth’s crust, volcanic activities and erosion.15

The probable connection of the Philippines with Taiwan was presented as to the similar basement rock deposits, some fossil-bearing guide markers as various horizons and paleobotanical materials on floral affinities that appeared during the early tertiary period. Specifically, Jocano explained this probable connection of the Philippines in the following: 16

1. Sedimentary deposits containing species of Viscarya callosa Jenkins and Lepido cyclina which can be encountered in the Philippines can also be encountered in Formosa. These materials could have not been transported at great distance , which fact attests to the existence of a land connection. This is reinforced by similar species of pine trees found in the highlands of Central Cordillera in Luzon.

2. Although the Formosan “bridge” was totally lost about the middle of the Tertiary, the southern links of the archipelago with other areas remained. These links were neither continuous nor direct streches of land ;at most, they were a series of isthmuses, cut through by shallow waters.The western conncetion, particularly the one which linked Palawan to Borneo become dryland during the Pleistocene which followed the Pliocene period. The eastern connection which linked eastern Mindanao to northern Celebes and New Guinea remained as series of islet.

3. As the connection with other areas changed the internal structure of the archipelago alos underwent changes. During the Pliocene, extensive coral reefs and their associated marls and sandstones were laid. Geologists refer to this time scale as the period of subsidence. It was characterized by the flattening of the crustal surface of the existing higher grounds.The greater part of the archipelago was covered by water. The central plains of Luzon, Cagayan Valley, and the central region of Mindanao, which were lowlands, became completely submerged until the Pleistocene times.

4. Small islands and narrow strips of land masses started to appear in other parts of the country. Land above the sea at this time included that of eastern Davao, Samar, Leyte, and the eastern coast of Luzon ( starting from Bundoc Peninsula), the Sulu archipelago, the portion of Westen Zamboanga, western Panay, Tablas and Masbate. These were all narrow strips of coral reefs,as were the eastern Zambales part of the Lingayen area and the northern Ilocos coast.

5. Asia, the exposed shelf known as the Sunda became vast dryland of considerable importance. It covered an area of 1,800,000 square kilometers and extended from the Malay peninsula, Sumatra, Java, Borneo, to Palawan. On the Australian side, the continental bank known as Sahul was also exposed. It covered the i