Forest

Terrestrial ecosystems in Hawaii have a high carbon sequestration capacity due to the year-round warm, wet climate and highly fertile soils. However, decreases in carbon sequestration are predicted through 2061, due to decreases in net primary production (NPP), increased carbon losses from land-use change, and increased aquatic carbon-leaching losses to nearshore waters. Hawai'i island is projected to remain a net carbon sink through 2061, due to terrestrial carbon sequestration.

This fungal disease has the potential to alter the structure of ‘ōhi‘a dominated forests. Many native plants are likely vulnerable to ‘ōhi‘a mortality events. Protecting trees from damage by introduced feral ungulates can help reduce the prevalence of this fungal disease, as damage is often a precursor to infection.

Indigenous agroecosystems can achieve the goals of conserving biodiversity while increasing food production. Species richness within agroecosystems is often comparable to adjacent forest reserves. Historic production from indigenous agriculture is estimated to have potentially yielded enough food to feed more than 1.2 million people each year.

In the Heeia watershed in Oahu, groundwater flow may decrease by as much as 15% by 2100.

The rainfall declines associated with increased frequency of TWI seem to be having ecological impacts, such as decreased rainfall in some areas. These changes impact native plants, such as the Haleakalā silversword, the populations of which have experienced a 60% decline since the early 1990s.

90% of the terrestrial species are endemic (unique to the region), and many are threatened or endangered. Habitat loss and alteration, and the spread of invasive plants have all contribute to extinctions and ecosystem decline. Sea level rise is expected to severely impact low-lying areas, including coastal plants, nesting seabirds, seals, and turtles.

Ocean acidification and coral bleaching will lead to loss of coastal habitats and negatively impact the productivity of fisheries. The productivity of ocean fisheries is anticipated to decline by up to 50% by late century. By late century, under a high emissions scenario, nearly all coral reefs are expected to be severely compromised by ocean acidification. Currently, coral reef cover is at 38%; by late century, the amount is projected to be less than 1%.

Extremely heavy rainfall has become more common in Hawai'i, leading to increased runoff, erosion, and flooding. The number of consecutive wet days and dry days have been increasing in Hawai'i.

Increasing temperatures, an expanding human population, and increased cover of invasive shrubs and grasses, such as common gorse, fountain grass and guinea grass, all contribute to increased risk of wildfire in Hawai'i.

Warmer temperatures and decreased cloud cover in some areas are likely to result in greater evaporation rates, leading to reductions in water supply and increases in demand. Hawai'i has already experienced a trend toward increasing drought conditions during the winter rainy season. Decreased soil moisture increases plant stress, with impacts to agricultural and natural systems.