Habitat destruction caused by humans includes
land conversion from forests, etc. to
arable land,
urban sprawl,
infrastructure development, and other anthropogenic changes to the characteristics of land. Habitat degradation, fragmentation, and
pollution are aspects of habitat destruction caused by humans that do not necessarily involve over destruction of habitat, yet result in habitat collapse.
Desertification,
deforestation, and
coral reef degradation are specific types of habitat destruction for those areas (
deserts,
forests,
coral reefs). Studies show that deforestation in forests, desertification in drylands, and the degradation of coral reefs in marine environments each contribute to habitat destruction and the loss of biodiversity.
Overarching drivers The forces that cause humans to destroy habitat are known as
drivers of habitat destruction.
Demographic, economic, sociopolitical, scientific and technological, and cultural drivers all contribute to habitat destruction. The boom in human population and migration of people into such species-rich regions are making
conservation efforts not only more urgent but also more likely to conflict with local human interests. According to the Geist and Lambin (2002) study, the underlying driving forces were prioritized as follows (with the percent of the 152 cases the factor played a significant role in): economic factors (81%), institutional or policy factors (78%), technological factors (70%), cultural or socio-political factors (66%), and
demographic factors (61%). The main economic factors included
commercialization and growth of
timber markets (68%), which are driven by national and international demands; urban
industrial growth (38%); low domestic costs for land, labor, fuel, and timber (32%); and increases in product prices mainly for
cash crops (25%). Institutional and policy factors included formal pro-
deforestation policies on
land development (40%),
economic growth including
colonization and infrastructure improvement (34%), and subsidies for land-based activities (26%);
property rights and land-tenure insecurity (44%); and policy failures such as
corruption, lawlessness, or
mismanagement (42%). The main technological factor was the poor application of technology in the
wood industry (45%), which leads to wasteful logging practices. Within the broad category of cultural and sociopolitical factors are public attitudes and values (63%), individual/household behavior (53%), public unconcern toward forest environments (43%), missing basic values (36%), and unconcern by individuals (32%). Demographic factors were the in-migration of colonizing settlers into sparsely populated forest areas (38%) and growing population density—a result of the first factor—in those areas (25%).
Forest conversion to agriculture Geist and Lambin (2002) assessed 152 case studies of net losses of tropical forest cover to determine any patterns in the proximate and underlying causes of tropical deforestation. Their results, yielded as percentages of the case studies in which each parameter was a significant factor, provide a quantitative prioritization of which proximate and underlying causes were the most significant. The proximate causes were clustered into broad categories of
agricultural expansion (96%),
infrastructure expansion (72%), and
wood extraction (67%). Therefore, according to this study,
forest conversion to agriculture is the main
land use change responsible for tropical deforestation. The specific categories reveal further insight into the specific causes of tropical deforestation: transport extension (64%), commercial wood extraction (52%),
permanent cultivation (48%),
cattle ranching (46%), shifting (
slash and burn) cultivation (41%),
subsistence agriculture (40%), and
fuel wood extraction for domestic use (28%). One result is that
shifting cultivation is not the primary cause of deforestation in all world regions, while transport extension (including the
construction of new roads) is the largest single proximate factor responsible for deforestation. Conversion to "trivial" standardized ecosystems (e.g.,
monoculture following deforestation) effectively destroys habitat for the more diverse species. Even the simplest forms of agriculture affect diversity – through clearing or draining the land, discouraging
weeds and
pests, and encouraging just a limited set of domesticated plant and animal species.
Climate change Climate change contributes to destruction of some habitats, endangering various species. For example: • Climate change causes
rising sea levels which will threaten natural habitats and species globally. • Melting
sea ice destroys habitat for some species. For example, the
decline of sea ice in the Arctic has been accelerating during the early twenty‐first century, with a decline rate of 4.7% per decade (it has declined over 50% since the first satellite records). One well known example of a species affected is the
polar bear, whose habitat in the Arctic is threatened.
Algae can also be affected when it grows on the underside of sea ice. •
Warm-water coral reefs are very sensitive to global warming and ocean acidification. Coral reefs provide a
habitat for thousands of species. They provide
ecosystem services such as
coastal protection and food. But 70–90% of today's warm-water coral reefs will disappear even if warming is kept to . For example, Caribbean
coral reefswhich are
biodiversity hotspotswill be lost within the century if global warming continues at the current rate.
Habitat fragmentation ==Impacts ==