Science, Tech, Math › Science Map of Tectonic Plates and Their Boundaries Share Flipboard Email Print ttsz / Getty Images Science Geology Landforms and Geologic Features Types Of Rocks Geologic Processes Plate Tectonics Chemistry Biology Physics Astronomy Weather & Climate By Andrew Alden Geology Expert B.A., Earth Sciences, University of New Hampshire Andrew Alden is a geologist based in Oakland, California. He works as a research guide for the U.S. Geological Survey. our editorial process Andrew Alden Updated January 30, 2020 The 2006 U.S. Geological Survey map of tectonic plates show 21 of the major plates, as well as their movements and boundaries. Convergent (colliding) boundaries are shown as a black line with teeth, divergent (spreading) boundaries as solid red lines, and transform (sliding alongside) boundaries as solid black lines. Diffuse boundaries, which are broad zones of deformation, are highlighted in pink. They are generally areas of orogeny or mountain building. Convergent Boundaries The teeth along the convergent boundaries mark the upper side, which is overriding the other side. The convergent boundaries correspond to subduction zones where an oceanic plate is involved. Where two continental plates collide, neither is dense enough to subduct below the other. Instead, the crust thickens and forms large mountain chains and plateaus. An example of this activity is the ongoing collision of the continental Indian plate and the continental Eurasian plate. The landmasses began colliding around 50 million years ago, thickening the crust to great extents. The result of this process, the Tibetan Plateau, is perhaps the largest and highest landform to have ever existed on Earth. Divergent Boundaries Continental divergent plates exist in East Africa and Iceland, but most of the divergent boundaries are between oceanic plates. As the plates split apart, whether, on land or the ocean floor, magma rises to fill in the empty space. It cools and latches onto the spreading plates, creating new earth. This process forms rift valleys on land and mid-ocean ridges along the seafloor. One of the most dramatic effects of divergent boundaries on land can be seen in the Danakil Depression, in the Afar Triangle region of East Africa. Transform Boundaries Notice that the divergent boundaries are periodically broken up by black transform boundaries, forming a zigzag or staircase formation. This is due to the unequal speeds at which the plates diverge. When a section of mid-ocean ridge moves faster or slower alongside another, a transform fault forms between them. These transform zones are sometimes called conservative boundaries, because they neither create land, as do divergent boundaries nor destroy the land, as do convergent boundaries. Hotspots The U.S. Geological Survey map also lists the Earth's major hotspots. Most volcanic activity on Earth occurs at divergent or convergent boundaries, with hotspots being the exception. Scientific consensus holds that hotspots form as the crust moves over a long-lasting, anomalously hot area of the mantle. The exact mechanisms behind their existence are not fully understood, but geologists recognize that over 100 hotspots have been active in the past 10 million years. Hotspots can be located near plate boundaries, like in Iceland but are often found thousands of miles away from. The Hawaii hotspot, for example, is almost 2,000 miles away from the nearest boundary. Microplates Seven of the world's major tectonic plates make up around 84 percent of the Earth's total surface. This map shows those and also includes many other plates that are too small to label. Geologists refer to the very small ones as "microplates," although that term has loose definitions. The Juan de Fuca plate, for example, is very small (ranked 22nd in size) and could be considered a microplate. Its role in the discovery of seafloor spreading, however, leads to its inclusion on almost every tectonic map. Despite their small size, these microplates can still pack a big tectonic punch. The 7.0 magnitude 2010 Haiti earthquake, for instance, occurred along the edge of the Gonâve microplate and claimed hundreds of thousands of lives. Today, there are more than 50 recognized plates, microplates, and blocks.