ScholarGate
Entdecken
BibliothekMeine BibliothekTischVorabprüfungReview StudioAssistent
Arbeitsbereich
Vergleichen
Bauen Sie Ihr Bücherregal auf

Speichern Sie Methoden, ordnen Sie Sammlungen und nehmen Sie sie mit an Ihren Tisch.

Konto erstellen
Bibliothek / Durchsuchen
Anmelden
Die Bibliothek

Wissenschaft nach Methode, Fachgebiet und Evidenz erkunden.

Ein Katalog der Forschungsmethoden — erfahren Sie, wie jede funktioniert, wann man sie einsetzt und was sie nicht kann.

6,402 Methoden11 Fachgebiete7 Methodenfamilien40 Sprachen
WissenschaftsatlasKartieren Sie die Struktur der Wissenschaft, bevor Sie sie nutzen.Fachgebiete · Methoden · EvidenzpfadeKarte erkunden
FachgebietHealth & Medicine716Psychology570Business & Finance410Engineering330Life Sciences263Education261Research Practice248Natural Sciences
ScholarGate

Eine inhaltsorientierte Referenzbibliothek für Forschungsmethoden — was jede Methode ist, wie sie funktioniert und woher sie stammt.

Offene Daten (CC-BY)

Entdecken

  • Bibliothek
  • Methoden durchsuchen…
  • Nach Fachgebiet stöbern
  • Fachgebiete
  • Forschungsweg
  • Vergleichen
  • Welche Methode?

Referenz

  • Fachgebiete
  • Atlas
  • Glossar
  • Methodik
  • Philosophie

Arbeitsbereich

  • Meine Bibliothek
  • Tisch
  • Chat

Unternehmen

  • Über uns
  • Preise
  • Kontakt
  • Methode vorschlagen

Die Einträge sind zu Referenzzwecken aus veröffentlichten Quellen zusammengestellt. Die Überprüfung der Richtigkeit und Eignung der Informationen für Ihre eigene Verwendung liegt in Ihrer Verantwortung.

© 2026 ScholarGate · Eine Referenzbibliothek für Forschungsmethoden
  • Datenschutz
  • Cookies
  • Nutzungsbedingungen
  • Konto löschen
236
Social Sciences185
Environment & Sustainability160
Law30
MethodeStatistik1,836KI & ML1,661Entscheidungswissenschaften932Forschungsmethoden1,354Messung1,745Kausalität & Evidenz532Forschungspraxis118
263 Methoden in Life SciencesZurücksetzen
Echte Methoden, die zu Ihrem Filter passen.
SortierenBeliebtheitA–ZZ–ANeueste
agronomy

Tillage Erosion Model

Tillage Erosion Model is a physical transport and modeling pipeline for predicting soil movement and redistribution caused by tillage operations on sloping land. Developed by soil scientists (Lindstrom, Nelson, Lobb) in the 1990s–2000s, this method quantifies how plowing, disking, and other soil-disturbing implements p

2 Quellen1992
forestry

Timber Harvest Scheduling

Timber harvest scheduling is an optimization method that determines which forest stands should be harvested and when, to achieve management objectives (economic return, sustained yield, biodiversity, wildlife habitat) while respecting constraints (minimum harvest age, ending inventory level, adjacent-stand restrictions

2 Quellen1977
bioinformatics

Time-series ChIP-seq peak calling

Time-series ChIP-seq peak calling extends standard chromatin immunoprecipitation sequencing analysis to samples collected at multiple time points. By identifying and comparing protein-DNA binding peaks across a temporal dimension, the method reveals how transcription factor occupancy, histone modifications, or chromati

2 Quellen2008
bioinformatics

Time-series copy number variation analysis

Time-series copy number variation (CNV) analysis is a computational genomics pipeline that characterizes chromosomal gains and losses across multiple sequential samples from the same individual or tumor. By comparing copy number profiles at successive time points — such as diagnosis, mid-treatment, relapse — it reconst

2 Quellen2010
bioinformatics

Time-series Epigenome-wide Association Study

A time-series epigenome-wide association study (time-series EWAS) extends the classic cross-sectional EWAS design to longitudinal settings, measuring DNA methylation across the entire epigenome at multiple time points within the same subjects. The goal is to identify CpG sites whose methylation levels change systematic

2 Quellen2010
bioinformatics

Time-series eQTL analysis

Time-series eQTL analysis identifies genetic variants (eQTLs) whose effect on gene expression changes over time or across developmental stages. By combining longitudinal RNA-seq data with individual genotypes, the method captures how the same SNP can activate, silence, or reshape gene regulation at different time point

2 Quellen2010
bioinformatics

Time-series gene set enrichment analysis

Time-series gene set enrichment analysis (TS-GSEA) extends the classical GSEA framework to detect biologically coordinated gene sets — pathways, gene ontology terms, or curated signatures — whose collective expression changes meaningfully over time. Rather than comparing two snapshots, it models the full temporal traje

2 Quellen2005
bioinformatics

Time-series metabolomics analysis

Time-series metabolomics analysis profiles small-molecule metabolites from biological samples collected at multiple, ordered time points, enabling researchers to capture the dynamic flux of metabolic pathways in response to stimuli, disease progression, drug treatment, or developmental change. By integrating longitudin

2 Quellen2000
bioinformatics

Time-series microbiome diversity analysis

Time-series microbiome diversity analysis tracks how the richness, evenness, and community composition of microbial communities change across multiple time points within the same subjects. By combining standard diversity metrics with longitudinal statistical models, it separates true temporal dynamics from inter-indivi

2 Quellen2010
bioinformatics

Time-series pathway enrichment analysis

Time-series pathway enrichment analysis identifies biological pathways whose coordinated gene activity changes significantly across ordered time points. Rather than treating each time point independently, the method models the temporal trajectory of gene expression within each pathway and tests whether entire biologica

2 Quellen2005
bioinformatics

Time-series phylogenetic analysis

Time-series phylogenetic analysis reconstructs the evolutionary history of organisms or genetic variants using sequences sampled at known time points. By incorporating sampling dates directly into the model, it estimates divergence times, substitution rates, and ancestral relationships on an absolute timescale — making

2 Quellen2000
bioinformatics

Time-series proteomics analysis

Time-series proteomics analysis quantifies protein abundance across two or more ordered time points to reveal how the proteome changes dynamically in response to stimuli, developmental stages, or disease progression. By combining mass spectrometry-based protein quantification with statistical models designed for tempor

2 Quellen2000
bioinformatics

Time-series RNA-seq differential expression

Time-series RNA-seq differential expression analysis identifies genes whose expression levels change systematically across ordered time points — such as during development, disease progression, or response to a treatment. Unlike two-condition DE analysis, it explicitly models the temporal structure of the data, capturi

2 Quellen2006
bioinformatics

Time-series single-cell RNA-seq analysis

Time-series single-cell RNA-seq analysis captures gene expression across multiple time points at single-cell resolution to reveal how cell populations emerge, transition, and diverge during dynamic biological processes such as development, differentiation, or disease progression. By combining pseudotime ordering, RNA v

2 Quellen2014
bioinformatics

Time-series variant calling

Time-series variant calling is a bioinformatics pipeline that identifies and tracks genomic variants — typically somatic mutations — across multiple sequencing samples collected from the same subject at different time points. It is most widely applied in cancer genomics to reconstruct tumour evolution, monitor minimal

2 Quellen2009
genetics

Transmission Disequilibrium Test

The Transmission Disequilibrium Test (TDT) is a family-based statistical method for testing genetic association with disease or traits while inherently controlling for population stratification. Developed by Spielman and Ewens in 1993, the TDT examines whether an allele is preferentially transmitted from heterozygous p

3 Quellen1993
forestry

Tree Height Measurement

Tree height measurement—determining the vertical distance from ground to tree top—is a cornerstone of forest inventory and biomass estimation. Ranging from classical optical instruments (clinometer, Abney level) to modern laser hypsometers and airborne LiDAR, tree height quantification enables calculation of volume, bi

4 Quellen1950
agronomy

Variable Rate Application

Variable Rate Application (VRA) is a precision agriculture technique that adjusts the quantity of inputs — such as fertilisers, pesticides, seeds, or water — across different zones of a field based on georeferenced soil and crop data. Rather than applying a uniform rate across an entire field, VRA delivers the right in

2 Quellen1980
bioinformatics

Variant Calling

Variant calling is the computational process of identifying positions in a sequenced genome that differ from a reference sequence — including single nucleotide polymorphisms (SNPs), small insertions and deletions (indels), and structural variants. It transforms aligned sequencing reads into an interpretable catalogue o

2 Quellen2009
agronomy

Weed Density Mapping

Weed Density Mapping is a spatial survey pipeline for measuring and mapping weed distributions across fields to support targeted herbicide application and management decisions. Developed by Gerhards, Christensen, and others in precision agriculture (2000s), this method combines field sampling or remote sensing with geo

2 Quellen2003
forestry

Weibull Diameter Distribution

The Weibull diameter distribution is a flexible three-parameter probability model used to describe the size-class distribution (proportion of trees by diameter class) in forest stands. Introduced by Bailey and Dell in 1973, the Weibull function provides an excellent fit to observed diameter distributions across diverse

2 Quellen1973
forestry

Wood Shrinkage

Wood shrinkage is the dimensional change that occurs as wood loses moisture from green (freshly felled) to oven-dry condition. Wood shrinks anisotropically: tangentially (along growth rings) more than radially (from center to edge), and both more than longitudinally (along the grain). Measuring shrinkage percentages is

2 Quellen1950
forestry

X-ray Densitometry

X-ray densitometry is a nondestructive method for measuring wood density, microdensity profiles, and ring-by-ring density variation in wood samples using X-ray image analysis. The method uses attenuation of X-rays passing through wood to quantify mass per unit volume. It enables rapid assessment of wood quality without

2 Quellen2005
← 45 / 5