Ancient Explorers and Their Amazing Maps

By Leslie Trager

This book analyses western maps made between the 13th to 17th centuries and shows them to be copies of maps made by ancient explorers going back as far as 5000 years. Thirteenth through fifteenth century Portolan Charts of the Mediterranean Sea, Black Sea and the Atlantic coasts of Europe and North Africa reflect geography going back 5000 years and are as accurate as a Mercator Projection. Sixteenth and seventh century maps of North America, South America, Greenland, and Antarctica are found to be copies of maps surveyed about 3700 years ago. Because the maps of Northern Greenland and Antarctica show their coasts very accurately and ice free, the book examines the temperature data for these areas and finds that there was sufficient warmth at that time to allow such coastal melting of the glaciers to have occurred. This finding indicates that present warming climate change is likely to melt these glacier faster than currently anticipated. The book discusses the technology available to the ancient explorers which allowed them to make such accurate maps and suggests civilizations as candidates responsible for creating them.

• Language: English
• Publisher: BookBaby
• Release date: Mar 23, 2022
• ISBN: 9781667821467

Book preview

ANCIENT EXPLORERS AND THEIR AMAZING MAPS.

INTRODUCTION

There are many Western maps made in the 13th through the early 17th centuries which simply cannot be explained as being surveyed during that period of time. They show coasts of continents which western explorers had not reached at the time these maps were made, and land formations consistent with the way the land looked three thousand to five thousand years earlier. These include river systems which were extinct by about 3000 BC, and lands which could not be reached during the 13th through 17th centuries such as Antarctica and Northern Greenland. The mariners who surveyed these maps were surely some of the great early explorers. Who they were, and where they were from, is not known, for so far we know of their travels only through these early maps.

This book will examine these early maps, search for clues as to who surveyed these maps, the dates when they were surveyed, and how they were so accurately made. You will note that I use the word surveyed because that will tell us the ultimate source of these maps. We of course know the maps themselves were produced or made during the 13th to 17th centuries because they have been all authenticated, and in most cases the name of the maker is imprinted on the map. But we do not know who surveyed these maps and, unfortunately, the Western map-makers never kept or described their source material so we cannot go back even one generation.

The most famous map maker, Gerhard Mercator, had great reverence for ancient sources, frequented book fairs where maps appeared, such as the Frankfurt book fair, and appealed for cartographic information.¹ As we shall see, in his 1569 World Map Mercator specifically refers to the knowledge of the ancients. In effect, the cartographers of this period copied cartographic information from ancient sources just the way slightly earlier humanists, such as Francesco Petrarca (Petrarch) and Poggio Bracciolini, copied ancient Latin and Greek writings, thereby preserving them from oblivion.² And just as the originals of these writings, and even their later copies, have been lost, so too are the maps from which the Western maps of the 13th to 17th centuries were copied.

But while the humanists recognized the ancient texts they were coping, the cartographers acted for the most part as though the maps they were making came from current knowledge, and even when they copied from earlier maps, they did not distinguish on their maps between the portions which came from current information and those from ancient sources. And so, it has been the entrenched habit of most scholars to start from the premise that accurate maps began with the Renaissance and the early Western explorers. The portions of the maps that depict lands not yet explored, or that could not be explored at that time, because they were surrounded with ice (such as Northern Greenland and Antarctica), are generally ignored as inconvenient facts.

This book intends to demonstrate that these early maps reflect sophisticated technology, high levels of mathematics and world-wide exploration from thousands of years ago. A lot of early maps are shown in this book because only by looking at them, can we decide what land areas they represent or whether the coasts represented are real or only inventions of early cartographers who depicted such places as an imaginary Terra Australis or Antarctica, running around the world.³ This book also points to areas for future archaeological exploration which should shed light not only on who these early map-makers were, but also answer questions related to the environment which existed at the time the surveys for these maps were conducted.

For these maps not only tell a story of largely untold history and technology, but some also reflect climate changes during the period from about 3000 to 1000 BC, when the earth was warmer than it is today. Uncovering this history may give us clues as to where we may be heading.

PART I

THE EARLIEST EXPLORATIONS - THE MIDDLE EAST , THE MEDITERRANEAN SEA AND NORTH AFRICA

I.

THE MYSTERY OF THE PORTOLAN CHARTS

Portolan charts were mostly made of the coasts of countries bordering the Mediterranean and Black Seas, and the Atlantic Coasts of France, Spain and North Africa. They first appeared during the last part of the 13th century and were made through the beginning of the 17th century. With respect to these coastal lands, the portolan charts are very accurate as to relative latitude and longitude. Indeed, they have been found to be as accurate as a Mercator projection for this area. Such accuracy requires the use of either a Mercator projection or some similar projection to be incorporated into the original map - the map projection is not accidental but must have been intentionally designed into the charts as part of their construction.⁴ However, Mercator did not develop his projection until the mid 16th century, almost three hundred years after portolans first appeared. Prior to Mercator, Europeans did not have the ability to make such accurate maps.

Moreover, in order to have a map of this accuracy, it is necessary to have accurate data for longitude and latitude for the many places on a map or chart. By the 13th century, people in Europe could get latitude, but no one, so far as we know, was able to determine longitude on a regular basis. Because the Mediterranean goes primarily from West to East, finding longitude is essential to making an accurate map of this area.

Finding longitude requires the use of an accurate, practical method of timing to determine how far East or West of a prime meridian a particular location is. Using the eclipse of the moon is one such method, but it is not practical because it does not occur frequently enough. Europeans did not have a practical method until after Galileo, peering through his telescope, discovered the four major moons of Jupiter in 1610, and after these moons had been sufficiently plotted so that their positions could be used as a universal time mechanism for determining the time at the prime meridian. This universal time could then be compared to local time to determine longitude for any particular place on the earth. Plotting these moons took about forty years of astronomical study. But even after this development in Western Europe, the portolan charts continued to be the most accurate maps for this area until the 18th century.⁵

The earliest known and existing portolan chart is the Carte Pisane, made about 1290. While this chart is not as developed as ones which were made a few years later, within the Mediterranean it is as accurate as the more developed portolans. A good example of an early, more developed portolan, is the Dulcert Portolan of 1325. (Plate 1). This chart accurately shows the coasts of North Africa, Spain, France, the Mediterranean and Black Sea. It also includes England and Ireland, although these are not as accurate. And it goes East as far as the Persian Gulf and the Tigris River.

The portolans are called charts rather than maps because they primarily show the coasts accurately, as opposed to the interiors, and are believed to have been used by sailors during the 13th to 18th centuries. Although the portolan charts are accurate for relative longitude and latitude, none of them show either. Instead they have 32 lines emanating from centers placed throughout the chart. Later portolans have these lines emanating from a compass rose with the lines explicitly representing directions. These lines are called rhumb lines, and are believed to have been inserted to help sailors plot their course on these charts.

There is no known mapping history which accounts for the sudden appearance of these highly accurate charts at the end of the 13th century. As Brown, in The Story of Maps states:

[Around 1300] suddenly come several copies of a full-blown chart of the Mediterranean and the Black Sea, with not a shred of evidence as to who made it or how it evolved. But it was much too accurate and detailed to be the work of any one man or any one group of navigators, nor could it represent the surveys of any one generation; the area is much too large and the details too complex. For three hundred years, from 1300 to 1600, this early chart of unknown origin was copied and recopied with few alterations or improvements.⁶

Indeed, the charts made in the first half of the 14th century tend to be more accurate than later portolan charts. We of course recognize that improvements to science tend to be developed over time. Yet, although portolan charts were made until the beginning of the 17th century, there was no improvement in these charts in terms of accuracy after 1340. Or, as Tony Campbell, a leading authority on portolan charts, states: By 1340, because of the work of the Vescontes and Angelino Dalorto, the portolan charts had reached what must have been generally accepted as to their final form, as far as their constructional underpinning, drafting techniques and hydrography were concerned. The toponymy [place names], however, would continue to be steadily amended….⁷ The fact that improvements to the portolan charts were not developed by map-makers and surveyors shows that people making portolan charts in the period of the 13th through the first half of the 17th century had no real idea how to develop a map, but were simply copying earlier maps handed down from prior civilizations. And there is no report of anyone ever making a survey to make a more accurate portolan chart for this area of the world. Emphasizing this copying is the fact that neither latitude nor longitude lines are reflected on these charts, even though the charts accurately portray relative latitude and longitude between the places depicted.

Some scholars have attempted to explain these charts as having been developed from sailors consistently sailing to the same ports and taking sightings of the land they passed. But, as probably most sailors would tell, it is impossible to measure distance that accurately just by sailing by. In addition, this theory does not explain how relative accurate longitude between places on the Atlantic Coast and Mediterranean points was obtained because this would entail sailing through the land, including the Pyrenees. Nor would aggregating the measurements of many sailors explain this as the concept of improving accuracy by calculating the arithmetic mean was not introduced into scientific practice until the end of the seventeenth century.⁸

One of the features of the portolan charts is that virtually all of them have a rotation of about 9 degrees West of true North. That is, North on the portolans is 9 degrees West of true North. We can see this on the portolans by taking two known locations on the same latitude and drawing a line between them. In the example (Plate 2), a line is drawn between Gibraltar and the center of Rhodes as both are on the 36th parallel, and if true North on the map were correct, this line would be horizontal. Instead, we find that there is an angle of about 9 degrees between the line from Gibraltar to Rhodes, and a line drawn at right angle to true North as shown on this portolan.

Finding true North is easily accomplished and was certainly known to the men of science in the 13th through the first half of the 17th century. The most basic way, known to ancient peoples, is using a gnomon (stick planted on a level surface) and measuring the suns’s shadow during the day with the midpoint being true North, or through the use of the North Star (and plotting its slight divergence from true North). Thus, any map maker, who had the ability to develop a portolan chart from surveyed locations, would have certainly known how to make a chart with true North at the top.

Some have said that the 13th to 17th century portolan chart makers deliberately made North 9 degrees West of true in order to make it easier for sailors to plot compass courses because in large parts of the Mediterranean the declination (difference between true North and magnetic North) was about 9 degrees East, and rotating the charts West would compensate for this. In this way, it would not be necessary for a sailor plotting a course on a portolan chart to compensate for declination in determining his compass course.

This justification for the 9 degree rotation seems unlikely. In