2000s Originally, Google neglected updating Google Trends on a regular basis. In March 2007, internet bloggers noticed that Google had not added new data since November 2006, and Trends was updated within a week. Google did not update Trends from March until July 30, and only after it was blogged about, again. Google now claims to be "updating the information provided by Google Trends daily; Hot Trends is updated hourly." As of April 2025, data on the Google Trends website shows updates every minute, with a 4 minute delay, when the timeline parameter is set to "Past hour." On August 6, 2008, Google launched a free service called Insights for Search. Insights for Search is an extension of Google Trends and although the tool is meant for marketers, it can be utilized by any user. The tool allows for the tracking of various words and phrases that are typed into Google's search-box. The tracking device provided a more in-depth analysis of results. It also has the ability to categorize and organize the data, with special attention given to the breakdown of information by geographical areas. In 2012, Google Insights for Search was merged into Google Trends with a new interface. Seeing absolute search volumes requires a separate
browser extension that overlays absolute numbers onto Google Trends' y-axis. The popularity of up to 5 search terms or search topics can be compared directly. Additional comparisons require a comparison term or topic. In 2009,
Yossi Matias et al. published research on the predictability of search trends.
2010s In a series of articles in
The New York Times,
Seth Stephens-Davidowitz used Google Trends to measure a variety of behaviors. For example, in June 2012, he argued that search volume for the word "nigger(s)" could be used to measure racism in different parts of the United States. Correlating this measure with Obama's vote share, he calculated that Obama lost about 4 percentage points due to racial animus in the 2008 presidential election. He also used Google data, along with other sources, to estimate the size of the gay population. This article noted that the most popular search beginning "is my husband" is "is my husband gay?" In addition, he found that American parents were more likely to search "is my son gifted?" than "is my daughter gifted?" But they were more likely to search "is my daughter overweight?" than "is my son overweight?" He also examined cultural differences in attitudes around pregnancy. Google Trends has also been used to forecast economic indicators, and financial markets, and analysis of Google Trends data has detected regional flu outbreaks before conventional monitoring systems. Google Trends is increasingly used in ecological and conservation studies, with the number of research articles growing over 50% per year. Google Trends data has been used to examine trends in public interest and awareness on biodiversity and conservation issues, species bias in conservation project, and identify cultural aspects of environmental issues. The data obtained from Google Trends has also been used to track changes in the timing biological processes as well as the geographic patterns of biological invasion. A 2011 study found that an indicator for private consumption based on search query time series provided by Google Trends found that in almost all conducted forecasting experiments, the Google indicator outperformed survey-based indicators. Evidence is provided by
Jeremy Ginsberg et al. that Google Trends data can be used to track influenza-like illness in a population. Because the relative frequency of certain queries is highly correlated with the percentage of physician visits in which a patient presents with influenza-like symptoms, an estimate of weekly influenza activity can be reported. A more sophisticated model for inferring influenza rates from Google Trends, capable of overcoming the mistakes of its predecessors has been proposed by Lampos et al. The use of Google Trends to study a wide range of medical topics is becoming more widespread. Studies have been performed examining such diverse topics as use of tobacco substitutes, suicide occurrence, asthma, and parasitic diseases. In an analogous concept of using health queries to predict the flu,
Google Flu Trends was created. Further research should extend the utility of Google Trends in healthcare. 's film,
An Inconvenient Truth, there was an increase in the number of
Google searches for the term
climate crisis, providing a measure of the film's influence. In 2019, governments made
climate emergency declarations in larger numbers, years after the first one in 2016. Furthermore, it was shown by
Tobias Preis et al. that there is a correlation between Google Trends data of company names and transaction volumes of the corresponding stocks on a weekly time scale. In April 2012,
Tobias Preis, Helen Susannah Moat,
H. Eugene Stanley and
Steven R. Bishop used Google Trends data to demonstrate that Internet users from countries with a higher per capita gross domestic product (GDP) are more likely to search for information about the future than information about the past. The findings, published in the journal
Scientific Reports, suggest there may be a link between online behaviour and real-world economic indicators. The authors of the study examined Google search queries made by Internet users in 45 countries in 2010 and calculated the ratio of the volume of searches for the coming year ('2011') to the volume of searches for the previous year ('2009'), which they call the 'future orientation index'. They compared the future orientation index to the per capita GDP of each country and found a strong tendency for countries in which Google users enquire more about the future to exhibit a higher GDP. The results hint that there may potentially be a relationship between the economic success of a country and the information-seeking behaviour of its citizens online. In April 2013,
Tobias Preis and his colleagues Helen Susannah Moat and
H. Eugene Stanley introduced a method to identify online precursors for stock market moves, using trading strategies based on search volume data provided by Google Trends. Their analysis of
Google search volume for 98 terms of varying financial relevance, published in
Scientific Reports, suggests that increases in search volume for financially relevant search terms tend to precede large losses in financial markets. The analysis of Tobias Preis was later found to be misleading and the results are most likely to be overfitted. The group of Damien Challet tested the same methodology with unrelated to financial markets search words, such as terms for diseases, car brands or computer games. They have found that all these classes provide equally good "predictability" of the financial markets as the original set. For example, the search terms like "bone cancer", "Shelby GT 500" (car brand), "Moon Patrol" (computer game) provide even better performance as those selected in original work. The study was in response to
Pete Buttigieg's surge in a poll of Iowa's
likely Democratic caucusgoers conducted between November 8 to 13 by the
Des Moines Register. Using Google Trends, he looked into the relationship between polling numbers and Google searches. His findings concluded that, while polling consists of far smaller sample sizes, the primary difference with Google Trends is that it only demonstrates intent to seek information. Google search volume was higher for candidates having higher polling numbers, but the correlation did not mean increased candidate favorability.
2020s The early years of the 2020s were marked by the emergence of the novel Coronavirus (
SARS-CoV-2) that would eventually become known as the Coronavirus Disease 2019 (
COVID-19) pandemic. Consequently, research based on accessible data in the context of
infodemiological studies has become increasingly prevalent, with Google Trends data proving to be a suitable tool for such surveys. Corresponding studies on the COVID-19 pandemic were set up to investigate and possibly predict the waves and spread. After a basic framework for using Google Trends had already been developed by 2019, this work was continued in the 2020s and existing limitations and possible solutions for scientific use were published. == Characteristics ==