I'm interested in using MutationObserver to detect if a certain HTML element is added anywhere in an HTML page. For example's sake, I'll say that I want to detect if any <li>'s are added anywhere in the DOM.

All the MutationObserver examples I've seen so far only detect if a node is added to a particular container. For example:

some HTML



  <ul id='my-list'></ul>



MutationObserver definition

var container = document.querySelector('ul#my-list');

var observer = new MutationObserver(function(mutations){
  // Do something here

observer.observe(container, {
  childList: true,
  attributes: true,
  characterData: true,
  subtree: true,
  attributeOldValue: true,
  characterDataOldValue: true

So in this example, the MutationObserver is setup to watch a very certain container (ul#my-list) to see if any <li>'s are appended to it.

Is it a problem if I wanted to be less specific, and watch for <li>'s over the entire HTML body like this:

var container = document.querySelector('body');

I know it works in the basic examples I've setup for myself... But is it not advised to do this? Is this going to result in poor performance? And if so, how would I detect and measure that performance issue?

I figured maybe there was a reason that all the MutationObserver examples are so specific with their targeted container... but I'm not sure.

  • Performance issues are specific to a given scenario. If your entire document only has a few simple elements I'm certain you won't have any issues. If you fear having performance issues, profile!
    – Amit
    Commented Jul 27, 2015 at 17:37
  • 11
    I have used plenty of MutationObservers and had them recursively watch the entire DOM. I've personally never had a problem with performance.
    – Luke
    Commented Jul 27, 2015 at 17:44
  • 9
    The primary reason for the introduction of MutationObservers and the deprecation of MutationEvents is because MutationObservers are much faster because they aggregate changes together. We also use MutationObservers with subtree: true on large documents and it has never been an issue. Commented Jul 27, 2015 at 18:09
  • 1
    Why are you observing changes in attributes and character data? You say so yourself -- you want to observe possible additions of li elements? If something is a candidate for sub-optimal performance, I'd say asking for more events than you need, is that. Commented Apr 26, 2019 at 18:52
  • As an example, Boomerang.js (github.com/akamai/boomerang), the web performance monitoring lib, is using a MutationObserver on the whole document to measure SPAs page load time.
    – JulienD
    Commented Feb 13, 2020 at 9:08

1 Answer 1


This answer primarily applies to big and complex pages.

If attached before page load/render, an unoptimized MutationObserver callback can add a few seconds to page load time (say, 5 sec to 7 sec) if the page is big and complex (1, 2). The callback is executed as a microtask that blocks further processing of DOM and can be fired hundreds or a thousand of times per second on a complex page. Most of the examples and existing libraries don't account for such scenarios and offer good-looking, easy to use, but potentially slow JS code.

  1. Always use the devtools profiler and try to make your observer callback consume less than 1% of overall CPU time consumed during page load.

  2. Avoid triggerring forced synchronous layout by accessing offsetTop and similar properties

  3. Avoid using complex DOM frameworks/libraries like jQuery, prefer native DOM stuff

  4. When observing attributes, use attributeFilter: ['attr1', 'attr2'] option in .observe().

  5. Whenever possible observe direct parents nonrecursively (subtree: false).
    For example, it makes sense to wait for the parent element by observing document recursively, disconnect the observer on success, attach a new nonrecursive one on this container element.

  6. When waiting for just one element with an id attribute, use the insanely fast getElementById instead of enumerating the mutations array (it may have thousands of entries): example.

  7. In case the desired element is relatively rare on the page (e.g. iframe or object) use the live HTMLCollection returned by getElementsByTagName and getElementsByClassName and recheck them all instead of enumerating the mutations if it has more than 100 elements, for example.

  8. Avoid using querySelector and especially the extremely slow querySelectorAll.

  9. If querySelectorAll is absolutely unavoidable inside MutationObserver callback, first perform a querySelector check, and if successful, proceed with querySelectorAll. On the average such combo will be a lot faster.

  10. If targeting pre-2018 Chrome/ium, don't use the built-in Array methods like forEach, filter, etc. that require callbacks because in Chrome's V8 these functions have always been expensive to invoke compared to the classic for (var i=0 ....) loop (10-100 times slower), and MutationObserver callback may report thousands of nodes on complex modern pages.

  • The alternative functional enumeration backed by lodash or similar fast library is okay even in older browsers.
  • As of 2018 Chrome/ium is inlining the standard array built-in methods.
  1. If targeting pre-2019 browsers, don't use the slow ES2015 loops like for (let v of something) inside MutationObserver callback unless you transpile so that the resultant code runs as fast as the classic for loop.

  2. If the goal is to alter how page looks and you have a reliable and fast method of telling that elements being added are outside of the visible portion of the page, disconnect the observer and schedule an entire page rechecking&reprocessing via setTimeout(fn, 0): it will be executed when the initial burst of parsing/layouting activity is finished and the engine can "breathe" which could take even a second. Then you can inconspicuously process the page in chunks using requestAnimationFrame, for example.

  3. If processing is complex and/or takes a lot of time, it may lead to very long paint frames, unresponsiveness/jank, so in this case you can use debounce or a similar technique e.g. accumulate mutations in an outer array and schedule a run via setTimeout / requestIdleCallback / requestAnimationFrame:

    const queue = [];
    const mo = new MutationObserver(mutations => {
      if (!queue.length) requestAnimationFrame(process);
    function process() {
      for (const mutations of queue) {
        // ..........
      queue.length = 0;

    Note that requestAnimationFrame fires only when the page is (or becomes) visible.

Back to the question:

watch a very certain container ul#my-list to see if any <li> are appended to it.

Since li is a direct child, and we look for added nodes, the only option needed is childList: true (see advice #2 above).

new MutationObserver(function(mutations, observer) {
    // Do something here

    // Stop observing if needed:
}).observe(document.querySelector('ul#my-list'), {childList: true});
  • 4
    Apparently I can't award a bounty immediately but I'm giving this answer a 50 point bounty because I find the live DOM collection trick for watching rare elements clever! Good answer! Commented Apr 26, 2019 at 18:48
  • Also, you might want to update the list - for example for... of is as fast as a regular for loop now in V8 :] Commented Apr 26, 2019 at 18:49
  • 1
    @Bergi, it's for the case when processing is complex and takes a lot of time. MutationObserver runs in a microtask queue so multiple callbacks may still reside in one task, which can lead to very long paint frames and jank.
    – woxxom
    Commented Jan 3, 2021 at 23:06
  • 2
    This is an incredible explanation. You should follow your 5th point in your final answer, however :) document.getElementById('my-list') instead of document.querySelector('ul#my-list')
    – jfudman
    Commented Oct 28, 2021 at 14:40
  • 2
    const mo = new MutationObserver(async mutations => { // ... }); is also a good approach to avoid DOM changing during mutation observer callback. Commented Jun 28, 2023 at 7:12

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