en.wikipedia.org website review
Improve your SEO :: free trial!
en.wikipedia.org is 56% geoptimaliseerd!
SEO Keyword summary for en.wikipedia.org/wiki/allee_effect
Keywords are extracted from the main content of your website and are the primary indicator of the words this page could rank for. By frequenty count we expect your focus keyword to be allee
Focus keyword
Short and long tail
Short Tail Keywords allee population effect |
long Tail Keywords (2 words) allee effect allee effects population density demographic allee population size |
long Tail Keywords (3 words) size or density demographic allee effect critical population size strong allee effect move to sidebar component allee effects per capita growth |
en.wikipedia.org On-Page SEO Scan
Descriptive Elements
The <head> element of a en.wikipedia.org/wiki/allee_effect page is used to inform the browser and visitors of the page about the general meta information. The head section of the page is where we place the page title, the definition of the HTML version used, the language of in which the page is written. In the head section we can also include JavaScript and CSS (markup) files for the page.
Page title
Title length
allee effect wikipedia
Meta description
Meta description legth
Meta description SEO
No meta relevance in the description detected !
Content SEO
Number of Words
Spam detected?
Headings
Heading distribution
Heading normalisation
Heading SEO impact
Emphasis (bold and italic)
Emphasis SEO impact
Images
Number of images
Images dimensions
Image alt descriptions
Images SEO impact
wikipedia free encyclopedia displaystyle frac dndtrnleft narightleft nkright ank partial npartial tdfrac rnleftfrac rightleft wikimedia foundation powered mediawiki
Mobile SEO en.wikipedia.org/wiki/allee_effect
Mobile rendering
Mobile optimizations
Responsive design detected (mobile css)
No flash detected !
Mobile improvement
Marketing / lead generation for en.wikipedia.org/wiki/allee_effect
Social Media
Facebook shares | Facebook likes | ||
Facebook comments | Tweets | ||
Google +1 |
Conversion form
Search form
Analytics
Online presence
SERP Preview
SERP Title
SERP Link
SERP Description
Domain Level SEO
Domain name
16 characters long
Domain name SEO Impact
Path name
allee found in path !
effect found in path !
Structured data
Publisher Markup
Other Structured data
Website configuration
Correct processing of non-existing pages?
Favicon icon found?
Robots.txt found?
Sitemap found?
Navigation and internal links
Navigation
Url seperator
Human readable urls
Number of links
Link SEO Impact
statistics
|
en.m.wikipedia.org |
en.wikipedia.org wikimedia foundation inc
|
w view history
httpsenwikipediaorgwindexphptitlealleeeffectoldid1248004714
page information
printable version
|
wiki read
biology
population size
fitness
per capita
population growth rate
warder clyde allee
goldfish
population density
depensation
fishery sciences
critical population size or density
inbreeding depression
sex ratio
plankton
meerkats
sardines
starlings
african wild dogs
pacific salmon
genetic diversity
genetic bottleneck
genetic drift
deleterious mutations
florida panther
monogamous
polygynous
logistic function
population dynamics
carrying capacity
diffusion coefficient
laplace operator
fragmentation
inbreeding
isbn
bibcode
jstor
s2cid
pmid
issn
arxiv
russell lande
oikos
wikidata
van den driessche p
google books
entomology
washington state university
colorado state university
zoology
university of oxford
swarm algorithms
agentbased model in biology
collective animal behavior
droving
flock
flocking
sort sol
herd
herd behavior
locust
mixedspecies foraging flock
mobbing behavior
feeding frenzy
pack
pack hunter
patterns of selforganization in ants
ant mill
symmetry breaking of escaping ants
predator avoidance in schooling fish
bait ball
swarming honey bee
swarming motility
animal migration
altitudinal
tracking
coded wire tag
bird migration
reverse migration
cell migration
fish migration
diel vertical
lessepsian
salmon run
sardine run
homing
natal
philopatry
insect migration
butterflies
monarch
sea turtle migration
agentbased models
ant colony optimization
boids
crowd simulation
particle swarm optimization
swarm intelligence
swarm simulation
collective motion
active matter
selfpropelled particles
clustering
vicsek model
biolgca
swarm robotics
ant robotics
microbotics
nanorobotics
symbrion
animal navigation
collective intelligence
decentralised system
eusociality
group size measures
microbial intelligence
mutualism
predator satiation
quorum sensing
spatial organization
stigmergy
military swarming
task allocation and partitioning of social insects
ecology
modelling ecosystems
trophic level
abiotic component
abiotic stress
behaviour
biogeochemical cycle
biomass
biotic component
biotic stress
competition
ecosystem
ecosystem ecology
green world hypothesis
keystone species
list of feeding behaviours
metabolic theory of ecology
productivity
resource
restoration
autotrophs
chemosynthesis
chemotrophs
foundation species
kinetotrophs
mixotrophs
mycoheterotrophy
mycotroph
organotrophs
photoheterotrophs
photosynthesis
photosynthetic efficiency
phototrophs
primary nutritional groups
primary production
consumers
apex predator
bacterivore
carnivores
chemoorganotroph
foraging
generalist and specialist species
intraguild predation
herbivores
heterotroph
heterotrophic nutrition
insectivore
mesopredators
mesopredator release hypothesis
omnivores
optimal foraging theory
planktivore
predation
prey switching
decomposers
chemoorganoheterotrophy
decomposition
detritivores
detritus
microorganisms
archaea
bacteriophage
lithoautotroph
lithotrophy
marine
microbial cooperation
microbial ecology
microbial food web
microbial loop
microbial mat
microbial metabolism
phage ecology
food webs
biomagnification
ecological efficiency
ecological pyramid
ecological energetics
food chain
lakes
rivers
soil
tritrophic interactions in plant defense
marine food webs
cold seeps
hydrothermal vents
intertidal
kelp forests
north pacific gyre
san francisco estuary
tide pool
ascendency
bioaccumulation
cascade effect
climax community
competitive exclusion principle
consumerresource interactions
copiotrophs
dominance
ecological network
ecological succession
energy quality
energy systems language
fratio
feed conversion ratio
mesotrophic soil
nutrient cycle
oligotroph
paradox of the plankton
trophic cascade
trophic mutualism
trophic state index
animal coloration
antipredator adaptations
camouflage
deimatic behaviour
herbivore adaptations to plant defense
mimicry
plant defense against herbivory
populationecology
abundance
consumerresource model
ecological yield
effective population size
intraspecific competition
malthusian growth model
maximum sustainable yield
overpopulation
overexploitation
population cycle
population modeling
predatorprey lotkavolterra equations
recruitment
small population size
stability
resilience
resistance
random generalized lotkavolterra model
biodiversity
densitydependent inhibition
ecological effects of biodiversity
ecological extinction
endemic species
flagship species
gradient analysis
indicator species
introduced species
invasive species
native species
latitudinal gradients in species diversity
minimum viable population
neutral theory
occupancyabundance relationship
population viability analysis
priority effect
rapoports rule
relative abundance distribution
relative species abundance
species diversity
species homogeneity
species richness
species distribution
speciesarea curve
umbrella species
antibiosis
biological interaction
commensalism
community ecology
ecological facilitation
interspecific competition
parasitism
storage effect
symbiosis
spatialecology
biogeography
crossboundary subsidy
ecocline
ecotone
ecotype
disturbance
edge effects
fosters rule
habitat fragmentation
ideal free distribution
intermediate disturbance hypothesis
insular biogeography
land change modeling
landscape ecology
landscape epidemiology
landscape limnology
metapopulation
patch dynamics
rk selection theory
resource selection function
sourcesink dynamics
ecological niche
ecological trap
ecosystem engineer
environmental niche modelling
guild
habitat
marine habitats
limiting similarity
niche apportionment models
niche construction
niche differentiation
ontogenetic niche shift
othernetworks
assembly rules
batemans principle
bioluminescence
ecological collapse
ecological deficit
ecological indicator
ecological threshold
ecosystem diversity
emergence
extinction debt
kleibers law
liebigs law of the minimum
marginal value theorem
thorsons rule
xerosere
allometry
alternative stable state
balance of nature
biological data visualization
ecological economics
ecological footprint
ecological forecasting
ecological humanities
ecological stoichiometry
ecopath
ecosystem based fisheries
endolith
evolutionary ecology
functional ecology
industrial ecology
macroecology
microecosystem
natural environment
regime shift
sexecology
systems ecology
urban ecology
theoretical ecology
outline of ecology
|
Links to external pages
Outloing links
be.wikipedia.org
de.wikipedia.org
et.wikipedia.org
es.wikipedia.org
fa.wikipedia.org
fr.wikipedia.org
ko.wikipedia.org
it.wikipedia.org
ja.wikipedia.org
pl.wikipedia.org
ru.wikipedia.org
sr.wikipedia.org
uk.wikipedia.org
zh.wikipedia.org
www.wikidata.org
www.wikidata.org
ui.adsabs.harvard.edu
www.doi.org
ui.adsabs.harvard.edu
www.doi.org
www.jstor.org
api.semanticscholar.org
ui.adsabs.harvard.edu
www.doi.org
api.semanticscholar.org
ui.adsabs.harvard.edu
www.doi.org
hdl.handle.net
pubmed.ncbi.nlm.nih.gov
www.ncbi.nlm.nih.gov
www.doi.org
www.ncbi.nlm.nih.gov
pubmed.ncbi.nlm.nih.gov
www.doi.org
www.doi.org
www.doi.org
api.semanticscholar.org
ui.adsabs.harvard.edu
www.doi.org
www.ncbi.nlm.nih.gov
search.worldcat.org
www.ncbi.nlm.nih.gov
pubmed.ncbi.nlm.nih.gov
www.arxiv.org
ui.adsabs.harvard.edu
www.doi.org
pubmed.ncbi.nlm.nih.gov
api.semanticscholar.org
ui.adsabs.harvard.edu
www.doi.org
api.semanticscholar.org
www.doi.org
www.doi.org
www.ncbi.nlm.nih.gov
ui.adsabs.harvard.edu
www.doi.org
www.ncbi.nlm.nih.gov
pubmed.ncbi.nlm.nih.gov
api.semanticscholar.org
web.archive.org
ui.adsabs.harvard.edu
www.doi.org
www.jstor.org
search.worldcat.org
www.wikidata.org
ui.adsabs.harvard.edu
www.doi.org
ui.adsabs.harvard.edu
www.doi.org
ui.adsabs.harvard.edu
www.doi.org
www.doi.org
pubmed.ncbi.nlm.nih.gov
ui.adsabs.harvard.edu
www.doi.org
pubmed.ncbi.nlm.nih.gov
api.semanticscholar.org
ui.adsabs.harvard.edu
www.doi.org
pubmed.ncbi.nlm.nih.gov
api.semanticscholar.org
hal.archives-ouvertes.fr
pubmed.ncbi.nlm.nih.gov
api.semanticscholar.org
www.ncbi.nlm.nih.gov
www.doi.org
www.ncbi.nlm.nih.gov
pubmed.ncbi.nlm.nih.gov
books.google.com
www.eoearth.org
books.google.com
foundation.wikimedia.org
foundation.wikimedia.org
foundation.wikimedia.org
www.wikimediafoundation.org
SEO Advice for en.wikipedia.org
In this section we provide pointers on how you can to optimize your web page so it can be found more easily by search engines and how to make it rank higher by optimizing the content of the page itself. For each of the individual criteria the maximum score is 100%. A score below 70% is considered to be indication that the page is not complying with general SEO standards and should be evaluated and/or fixed. Not every factor is weighted the same and some are not as important as others. Relatively unimportant factors like meta keywords are not included in the overall score.
Item | Factor | Pointers | |
---|---|---|---|
PageTitle | 100% | Far too many sites lack a page title. A page title is the first thing that shows in the search results so always use the title element. | |
Title relevance | 87% | A title should reflect the contents of a site. This site has a 67 % match | |
Title Length | 30% | Limit your title to anywhere between 40 and 70 characters. Your title was 25 characters long | |
Meta Description | 0% | A meta description is the second element that shows in the search results so always use the meta description. | |
Meta description length | 0% | The meta description should be between 145 and 160 characters. This meta description is 1 characters long. | |
Meta description relevance | 0% | Meta Description should reflect the contents of a site. This site has a 0 % match | |
Number of internal links | 30% | Linking to internal pages makes pages easier to find for search engines. Try to keep the number of links on your page roughly below 100. There are 499 internal links on this page. | |
Folder structure | 100% | We found a folder structure in the links on your page. A good folder structure makes a site easier to navigate. We found 3 level 1 folders and 7 folders above or in the first level of navigation. | |
Headings | 71% | Headers should reflect the contents of a site. This site has a 31 % match | |
Links | 8% | Link anchors should to some degree reflect the contents of a site. This site has a 4 % match | |
Image alt tags | 17% | Image alt tags should to some degree reflect the contents of a site. This site has a 6 % match | |
Bold and italic | 39% | Bold and italic tags should reflect the contents of a site to some degree. This site has a 13 % match | |
Html ratio | 60% | Try to keep the html / text ratio as low as possible. More html means longer loading times. Layout should be handled in a serpate css file | |
Image descriptions | 73% | 73.333333333333 % of all images have been described via the "alt" attribute. Describing images with relevant text may lead to better results in the search engines. | |
Page errors | 100% | Pages with no errors display significantly faster on most browsers. We detected 0 errors and warnings | |
WordCount | 20% | An ideal page contains between 400 and 600 words.This page contains 4469 words | |
Server response time | 30% | A slow server slows down a website. This server responds 180.89% slower the average | |
Gzip compression | 30% | This site does not use Gzip compression. Pages may not display as fast as they could | |
Keywords in Domainname | 30% | There are no important keywords in your domain name | |
Keywords in domain path | 100% | There are important keywords in the domain path | |
Structured Data | 100% | Structured data makes it easier for search engines to index your website | |
Inline css | 0% | Do not use inline css declarations. Inline css will slow down the rendering of the website. We detected 95 inline style declarations ( <a style="color:green">) with a size of 1756 bytes | |
Excessive use of the same words | 100% | There is no indication that there are one or more keywords that are used excessively. | |
Frames or iframes | 100% | Perfect, detected not (i)frames on your webpagina | |
Flash | 100% | Perfect, we detected no flash objects on your page | |
Css | 30% | We detected too much (2) CSS files on your page. Css files block the loading of a webpage. | |
Javascript | 100% | Perfect, we did not detect too many blocking JavaScript files | |
Mobile Website | 100% | Perfect, we found a responsive design for mobile users | |
Most important heading | 100% | Perfect, we detected a correct use of the most important (h1) heading! | |
Normalized headings | 40% | We dit not font a normalized heading structure. A heading 2 (h2) for example should be followed by a heading of an equal level (h2), a child heading (h3) or even a aprent heading (h1). |
How would you like to have SEO advice for all your pages ?? Start your SEO Dashboard and optimize your website!
en.wikipedia.org images and descriptions
15 images found at en.wikipedia.org Images can improve the user experience for a website by making a pag visually appealing Images can also add extra keyword relevance to a webpage by using alt tags. Images can also slow down a website. If the width and height for a picture is not specified for a browser know in advance how large the image is. A browser must first load the picture and see before it knows how much space should be on the page. Upon reservation In the meantime, the browser can do little but wait. When the height and width for the plate are given in the HTML code, a browser just continues to build for a page while the images load in the background.
How are images contributing to your SEO site-wise ? Your leading content tool has the awnsers!