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35 results for "ecosystem services" — page 1 of 2
ZB_5_16 — Ecosystem Services Quantification
Ecosystem services quantification attempts to assign monetary or biophysical values to the benefits that natural systems provide to humanity — including pollination, water purification, carbon sequestration, flood regula
ZB_5_13 — Ecological Economics: Valuing Nature's Services
Ecological economics is a transdisciplinary field that treats the human economy as a subsystem embedded within — and fundamentally dependent upon — the finite biophysical systems of the Earth, challenging the neoclassica
O_3_01 — Biodiversity, Ecosystem Intelligence, and the Superorganism
Earth harbors an estimated 8.7 million eukaryotic species (Mora et al. 2011), of which only ~1.5-1.8 million have been formally described — meaning roughly 80% of species remain unknown to science. When prokaryotes (bact
ZF_4_09 — Seagrass and Coastal Carbon Sequestration (Blue Carbon)
Blue carbon refers to the carbon captured and stored by coastal and marine ecosystems — primarily seagrass meadows, mangrove forests, and salt marshes — which sequester carbon at rates per unit area far exceeding terrest
ZB_4_05 — Urban Ecology: Nature in the City
Urban ecology studies the distribution, abundance, and interactions of organisms within cities and urbanized landscapes — environments that now house over 56% of humanity (projected ~68% by 2050) and cover ~3% of Earth's
ZF_5_13 — Coral Paleontology: Fossil Reefs and Ancient Reef Ecosystems
Reef ecosystems have existed for over 3.5 billion years — beginning with Archean microbial stromatolite mounds — making them among the longest-running biological communities on Earth. Yet the organisms that build reefs h
ZB_4_07 — Deep-Time Ecology: Ecosystems across Geological History
Deep-time ecology reconstructs the structure, function, and dynamics of ecosystems over geological time — from the earliest microbial mats of the Archean (>3.5 Ga) through the emergence of complex life in the Ediacaran-C
ZB_3_25 — Invasive Species and Ecosystem Disruption
Biological invasions — the introduction and establishment of species outside their native range through human activity — are recognized as one of the top five drivers of global biodiversity loss alongside habitat destruc
ZB_3_17 — Invasive Species Ecology and Biological Invasions
Biological invasions — the introduction, establishment, spread, and impact of species outside their native range — are among the most significant drivers of global biodiversity loss, ecosystem change, and economic damage
R_5_15 — Rewilding: Ecological Restoration Through Trophic Cascades and Keystone Species Reintroduction
Rewilding is a conservation strategy that aims to restore self-sustaining ecosystems by reintroducing native keystone species — particularly large predators and megaherbivores — and reconnecting fragmented habitats throu
X_5_14 — Emergency & Critical Care Medicine: From Battlefield Triage to Modern Intensive Care
Emergency medicine and critical care medicine represent two interconnected disciplines born from crisis — battlefield carnage, epidemic waves, and the realization that rapid intervention separates survival from death. Em
ZF_2_09 — Fisheries Science and Overfishing
Fisheries science studies the dynamics of fish populations and the management of their exploitation, while overfishing — harvesting fish faster than they can reproduce — has emerged as one of the most pressing threats to
ZF_2_15 — Jellyfish Ecology: Blooms, Climate Change, and Gelatinous Dominance
Jellyfish (Cnidaria: Scyphozoa, Cubozoa, Hydrozoa, and the distantly related Ctenophora) are among the oldest and most ecologically significant animals in the ocean — with a fossil record extending over 500 million years
ZF_2_08 — Kelp Forests and Seagrass Meadows
Kelp forests and seagrass meadows are the ocean's equivalents of terrestrial forests and grasslands — highly productive underwater ecosystems that provide habitat, food, nursery grounds, carbon sequestration, and coastal
ZB_4_08 — Rewilding and Ecological Restoration
Rewilding is an emerging approach to conservation that aims to restore self-sustaining, self-regulating ecosystems by reintroducing missing species — particularly large vertebrates and ecological engineers — and allowing
ZB_3_14 — Kelp Forests and Seagrass Meadows: Underwater Gardens of Productivity
Kelp forests and seagrass meadows are the two major groups of marine macrophyte-dominated ecosystems — structurally complex, highly productive underwater habitats that provide essential services including nursery habitat
ZB_3_07 — Keystone Species and Trophic Cascades
A keystone species exerts an ecological influence disproportionate to its abundance — its removal causes cascading structural changes through the ecosystem. The concept was introduced by Robert Paine (1966, 1969) based o
O_5_02 — Soil Biomes and Underground Ecosystems
Beneath every terrestrial landscape lies one of Earth's most complex and least understood ecosystems — the soil biome, a living matrix containing an estimated 25% of all species on Earth (Decaëns et al., 2006) and proces
L_4_01 — Ancient DNA from Sediment — Environmental DNA Revolution
Environmental DNA (eDNA) recovery from sediments has revolutionized our ability to detect the presence of organisms — including ancient humans — without requiring the discovery of any bones, teeth, or artifacts. The land
R_5_13 — Biological Invasions: Introduced Species and Ecosystem Disruption
Biological invasions — the introduction and spread of species beyond their native range, typically aided by human activity — represent one of the top five drivers of global biodiversity loss, alongside habitat destructio
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