Why Study Biology in Hawai`i?

Because of its location on the Island of Hawai`i (The Big Island), the University of Hawai`i at Hilo, is one of the premier locations within the United States for biological studies. The Hawaiian Islands possess extraordinary variation in climate, elevation, topography, and edaphic factors, as well as a distinctive biota derived from the islands' extreme geographic isolation (over 2,000 miles from the nearest continental landmass) and unique evolutionary history. As such, the islands represent an unparalleled natural laboratory for the biological and environmental sciences.

Of all the Hawaiian Islands, the Big Island is the youngest and largest and boasts the greatest environmental variation. The island ranges in elevation from sea level to almost 14,000 feet, and average annual rainfall ranges from 250 mm to 6000 mm. Five volcanoes make up the island, including Mauna Kea, Mauna Loa - the largest volcano in the world, and Kilauea - the most active volcano in the world. Kilauea's current eruption of a`a and pahoehoe lavas, cinder, and ash, which began in 1983, has covered well over 100 square kilometers of land surface. This extraordinary variation in climate, elevation, and age and type of substrate creates a matrix of environmental conditions on which Hawaii's ecosystems are found. Within the tropical environment of the Big Island one can find desert, dry forest, rain forest, mesic forest, cloud forest, sub-alpine shrub land, and alpine habitats in various stages of primary and secondary succession. Ecological studies done along these incredible environmental gradients are often used as textbook examples. On the Big Island, one has the chance to see these famous examples in person.

In addition to its terrestrial diversity, the Big Island features more than 320 miles of coastline, harboring a diverse array of habitats from black, white, and green sandy beaches to estuaries, tide pools, scenic cliffs, anchialine ponds, introduced mangrove forests, and pristine coral reefs. Within a few miles of shore, the sea bottom plunges to depths of thousands of feet, affording biological oceanographers easy access to deep-sea ecosystems. The Native Hawaiians in their `Ahupua`a, land management and tenure system, implicitly recognized the value of this biological and landscape diversity. Land was managed in swaths from mountain to sea, shaped with an understanding that different activities occurred in different ecological and climatic zones.

Hawai`i has long been recognized as a critical site for studies of global environmental change. The Hawaiian Islands represent some of the most recently colonized areas of the globe, having been discovered by the Polynesians less than 2000 years ago and by the Europeans in 1778. Hawaii's extreme geographic isolation from regions of high population density has allowed the archipelago to remain relatively unpolluted, a fact that led to the atmospheric monitoring on Mauna Loa beginning in 1956. Hawai`i is the leader in atmospheric gas research; the infamous diagram showing increases in carbon dioxide worldwide over the last fifty years originated at the Mauna Loa Observatory, where this study continues today.

As the most isolated landmass on Earth, Hawai`i is truly unique in its flora and fauna, boasting remarkable examples of adaptive radiation and a tremendous degree of endemism. Examples often cited in evolution textbooks include the Hawaiian silversword alliance, fruit flies, and the honeycreeper birds. About 90% of the biota in Hawai`i are endemic, and the archipelago is recognized worldwide as a biodiversity hotspot. Unfortunately, the native biota is highly threatened by habitat loss, invasion by non-native species, pollution, and anthropogenic disturbance. Consequently, Hawai`i is recognized as first among the states in the number of endangered species and is renowned as a vital area for conservation efforts.