RESEARCH BASE

Search 3,721 documents across 34 fields — every claim tier-rated by evidence

3,721 documents 34 sections 43,623 citations 34,854 keywords indexed 4 evidence tiers

3,633 are the core, quality-scored corpus (34 lettered sections — see How We Work); the remaining 88 are cross-corpus synthesis documents (68 InterDocs, 12 Connections, 8 Theories) also indexed here.

2,237 results for "El Niño" — page 90 of 112

R_3_11 Biology & Evolution

R_3_11 — Microevolution and Rapid Adaptation

Microevolution — changes in allele frequencies within populations over generations — is the fundamental engine of biological adaptation. Once assumed to operate too slowly to observe directly, research over the past 50 y

microevolution rapid adaptation contemporary evolution natural selection genetic drift gene flow
R_3_14 Verified Biology & Evolution

R_3_14 — Evolution of Aging and Senescence

Aging — the progressive decline in physiological function and increase in mortality rate with time — is one of evolution's deepest puzzles: why would natural selection, which optimizes fitness, permit organisms to deteri

aging senescence evolution mutation accumulation antagonistic pleiotropy disposable soma
R_3_02 Biology & Evolution

R_3_02 — Horizontal Gene Transfer in Complex Life

For decades, the "tree of life" was the central metaphor of evolutionary biology — species branching neatly from common ancestors through vertical gene transmission (parent to offspring). This metaphor is now BROKEN, at

horizontal gene transfer HGT lateral gene transfer LGT endosymbiosis mitochondria
R_3_06 Biology & Evolution

R_3_06 — Altruism and Cooperation in Nature

Altruism — behavior that reduces the actor's fitness while increasing the recipient's — presents a fundamental puzzle for evolutionary theory: how can natural selection favor genes that reduce their bearer's reproduction

altruism cooperation kin selection Hamilton reciprocal altruism Trivers
R_3_20 Verified Biology & Evolution

R_3_20 — CRISPR & Gene Editing Technology

CRISPR-Cas9 is the most transformative biological technology since PCR, enabling precise, programmable editing of DNA in virtually any organism. The system was adapted from a bacterial immune defense mechanism first iden

CRISPR Cas9 gene editing genome engineering Jennifer Doudna Emmanuelle Charpentier
R_3_19 Verified Biology & Evolution

R_3_19 — Bacterial Chemotaxis and Signal Transduction

Bacterial chemotaxis — the ability of bacteria to sense chemical gradients in their environment and direct their movement accordingly — is one of the most thoroughly understood signal transduction systems in all of biolo

chemotaxis bacteria signal transduction two-component system chemoreceptor CheA
R_3_09 Biology & Evolution

R_3_09 — Molecular Phylogenetics and Tree of Life

Molecular phylogenetics — reconstructing evolutionary relationships from DNA, RNA, and protein sequences — has revolutionized our understanding of the tree of life since Carl Woese's landmark 1977 discovery, using small-

phylogenetics molecular clock tree of life cladistics maximum likelihood Bayesian
R_3_13 Verified Biology & Evolution

R_3_13 — Evolution of the Immune System

The immune system is one of evolution's most elaborate and costly creations — vertebrate adaptive immunity alone employs V(D)J recombination to generate over 10¹¹ distinct antibody specificities from fewer than 400 gene

immune system innate immunity adaptive immunity immunoglobulin T cell B cell
R_5_09 Verified Biology & Evolution

R_5_09 — Color in Nature: Structural Color, Pigmentation, and Signaling

Color in nature serves functions spanning camouflage, warning, mate attraction, thermoregulation, and protection from UV radiation — produced through two fundamentally different mechanisms: pigmentary color (selective ab

structural color pigment melanin carotenoid iridescence thin-film interference
R_5_13 Verified Biology & Evolution

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

invasive species biological invasion introduced species exotic species ecological disruption biodiversity loss
R_5_15 Verified Biology & Evolution

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

rewilding trophic cascade keystone species Pleistocene rewilding wolf reintroduction Yellowstone
R_5_11 Verified Biology & Evolution

R_5_11 — Coral Biology: Symbiosis, Bleaching, and Reef Building

Coral reefs — often called the "rainforests of the sea" — are among Earth's most biodiverse and productive ecosystems, occupying less than 0.1% of the ocean floor yet supporting approximately 25% of all marine species. T

coral coral reef zooxanthellae Symbiodiniaceae coral bleaching scleractinian
R_5_03 Biology & Evolution

R_5_03 — Domestication of Plants and Agriculture

The domestication of plants — one of the most transformative events in human history — began independently in at least 10 geographic centers between ~12,000 and 5,000 years ago. The Fertile Crescent (wheat, barley, lenti

domestication agriculture Neolithic revolution Fertile Crescent teosinte maize
R_5_04 Verified Biology & Evolution

R_5_04 — Eusociality: Ants, Bees, and Termites

Eusociality — the highest level of social organization in the animal kingdom, characterized by reproductive division of labor (some individuals forgo reproduction to help others reproduce), cooperative brood care, and ov

eusociality kin selection inclusive fitness Hamilton's rule haplodiploidy superorganism
R_5_05 Verified Biology & Evolution

R_5_05 — Bioluminescence: Evolution and Deep-Sea Adaptation

Bioluminescence — the production of light by living organisms through chemical reactions — is one of the most extraordinary and frequently convergent traits in evolution, having evolved independently at least 94 times ac

bioluminescence luciferin luciferase photoprotein deep sea anglerfish
R_5_18 Verified Biology & Evolution

R_5_18 — Synthetic Biology & Artificial Genomes

Synthetic biology is an interdisciplinary field that applies engineering principles — standardization, modular design, abstraction hierarchies — to biological systems, with the ultimate goal of designing and constructing

synthetic biology artificial genome JCVI-syn3.0 minimal cell Craig Venter xenobiology
R_5_17 Verified Biology & Evolution

R_5_17 — Prion Biology and Ecology

Prions — infectious agents composed entirely of misfolded protein, devoid of nucleic acid — represent one of the most conceptually revolutionary discoveries in biology, fundamentally challenging the central dogma that ge

prion PrP transmissible spongiform encephalopathy TSE mad cow disease BSE
R_5_07 Credible Biology & Evolution

R_5_07 — Ethnobotany: Plants, People, and Traditional Knowledge

Ethnobotany — the study of the relationships between plants and people across cultures and throughout history — documents how human societies have used plants for food, medicine, shelter, textiles, tools, dyes, poisons,

ethnobotany traditional plant knowledge medicinal plants indigenous knowledge Schultes economic botany
R_5_06 Verified Biology & Evolution

R_5_06 — Fungal Kingdom: Deep Evolution, Networks, and Ecological Dominance

The Kingdom Fungi — comprising an estimated 2.2–3.8 million species (of which only ~150,000 have been formally described) — is one of the most ecologically dominant, evolutionarily ancient, and biologically consequential

fungi fungal kingdom mycorrhizae wood wide web mycelium decomposition
R_5_21 Verified Biology & Evolution

R_5_21 — Turing Patterns: Mathematical Morphogenesis and Biological Pattern Formation

In his landmark 1952 paper "The Chemical Basis of Morphogenesis," Alan Turing proposed that biological patterns — stripes, spots, spirals, and branching structures — could arise spontaneously from the interaction of two

turing patterns reaction-diffusion morphogenesis alan turing pattern formation activator-inhibitor