List of asteroid close approaches to Earth in 2016
{{Short description|none}}
| class="infobox" style="width: 250px;"
|style="text-align:center"| Asteroids which came closer to Earth than the Moon in 2016 by time of discovery |
| {{#invoke:Chart
|pie chart |percent = true |radius = 125 |slices = ( 31 : After closest approach : red ) ( 5 : < 24 hours before : yellow ) ( 16 : up to 7 days before : lightgrey ) ( 0 : > one week before : green ) ( 0 : > 7 weeks before : turquoise ) ( 0 : > one year before : blue ) }} {{Infobox | title = Other years | caption = Years | below = 2014, 2015, 2016, 2017, 2018 }} |
Below is the list of asteroid close approaches to Earth in 2016.
Timeline of known close approaches less than one Lunar distance from Earth in 2016
A list of known near-Earth asteroid close approaches less than 1 lunar distance ({{convert|0.0025696|AU|km mi|abbr=on|lk=off}}) from Earth in 2016, based on the close approach database of the Center for Near-Earth Object Studies (CNEOS).{{cite web |url=https://cneos.jpl.nasa.gov/ca/ |title=NEO Earth Close Approaches |publisher=NASA/JPL CNEOS |access-date=27 February 2025 }}
For reference, the radius of Earth is approximately {{convert|0.0000426|AU|km mi|abbr=on|lk=off}} or 0.0166 Lunar distances.
The orbit of geosynchronous satellites, however, is {{convert|0.000282|AU|km mi|abbr=on|lk=off}} or 0.110 Lunar distances. This year, 6 (possibly 7) asteroids traveled nearer than this, most notably {{mp|2016 DY|30}}, which approached a mere 1.25 Earth radii (8000 km) from the surface.
The CNEOS database of close approaches lists some close approaches a full orbit or more before the discovery of the object, derived by orbit calculation. The list below only includes close approaches that are evidenced by observations, thus the pre-discovery close approaches would only be included if the object was found by precovery, but there was no such close approach in 2016.
This list and relevant databases do not consider impacts as close approaches, thus this list does not include any of the 32 objects that collided with Earth's atmosphere in 2016, none of which were discovered in advance, but were observed visually or recorded by sensors designed to detect detonation of nuclear devices.[https://cneos.jpl.nasa.gov/fireballs/ NASA.gov]
{{legend0|#ff9999|border=1px solid #ff9999|Rows highlighted red indicate objects which were not discovered until after closest approach}}
{{legend0|#ffff99|border=1px solid #ffff99|Rows highlighted yellow indicate objects discovered less than 24 hours before closest approach}}
{{legend0|#99ff99|border=1px solid #99ff99|Rows highlighted green indicate objects discovered more than one week before closest approach}}
{{legend0|#99ffff|border=1px solid #99ffff|Rows highlighted turquoise indicate objects discovered more than 7 weeks before closest approach}}
{{legend0|#bbccff|border=1px solid #bbccff|Rows highlighted blue indicate objects discovered more than one year before closest approach
(i.e. objects successfully cataloged on a previous orbit, rather than being detected during final approach)}}
In addition to the confirmed asteroids on the above list, which feature in the CNEOS close approach database, there have been well-observed unconfirmed or confirmed but poorly observed objects with a 50% or greater chance of passing within 1 LD of the Earth, which are listed separately below.
| class="wikitable sortable"
! Date of ! Date ! Object ! Nominal geocentric ! Nominal geocentric ! data-sort-type="number"|Size (m) ! (H) ! Closer | |||||||
| 2016-02-11 | 2016-??-?? | P10tI8h | {{convert|0.00176|AU|km mi|abbr=on|lk=off}} | align="center"|0.69 | align="center"|2–3 | align="center"|30.7 | align="center"|? |
| bgcolor="#ff9999"
|2016-03-28 | 2016-03-31 {{Cite web|url=https://minorplanetcenter.net/db_search/show_object?object_id=2016+FR60|title = IAU Minor Planet Center}} | {{mp|2016 FR|60}} aka BeUc1Ig {{cite web | url=http://www.birtwhistle.org.uk/NEOCPObjects2016.htm | title=NEOCP Objects in 2016 }} | {{convert|0.00256|AU|km mi|abbr=on|lk=off}} | align="center"|0.99 | align="center"|3–9 | align="center"|29.3 | align="center"|? |
| bgcolor="#ff9999"
|2016-04-01 | 2016-04-02 {{Cite web|url=https://minorplanetcenter.net/db_search/show_object?object_id=2016+GC252|title=IAU Minor Planet Center}} | {{mp|2016 GC|252}} aka
|{{convert|0.000336|AU|km mi|abbr=on|lk=off}} | align="center"|0.13 | align="center"|3–9 | align="center"|29.3 | align="center"|? | |
| bgcolor="#ff9999"
|2016-08-09 | 2016-08-16 {{cite web | url=http://www.birtwhistle.org.uk/NEOCPObjects2017.htm | title=NEOCP Objects in 2017 }} (Unconfirmed) | DT16P09 | {{convert|0.000432|AU|km mi|abbr=on|lk=off}} | align="center"|0.17 | align="center"|1–3 | align="center"|32.9 | align="center"|? |
| bgcolor="#ff9999"
|2016-10-14 | 2016-10-20 (Unconfirmed) | XT9D939 | {{convert|0.00241|AU|km mi|abbr=on|lk=off}} | align="center"|0.94distance error: 0.000244 AU, approach range: 0.84 to 1.03 LD | align="center"|7–20 | align="center"|27.7 | |
| bgcolor="#ff9999"
|2016-10-19 | 2016-11-06 (Unconfirmed) | XUA7AB3 | {{convert|0.00233|AU|km mi|abbr=on|lk=off}} | align="center"|0.91distance error: 0.000609 AU, approach range: 0.67 to 1.14 LD | align="center"|4–13 | align="center"|28.6 | |
| bgcolor="#ff9999"
|2016-11-05 | 2016-11-14 (Unconfirmed) | XV88D4F | {{convert|0.000245|AU|km mi|abbr=on|lk=off}} | align="center"|0.095distance error: 0.0000808 AU, approach range: 0.064 to 0.13 LD | align="center"|2–7 | align="center"|30.0 |
= Warning times by size =
This sub-section visualizes the warning times of the close approaches listed in the table of confirmed close approaches, depending on the size of the asteroid. The sizes of the charts show the relative sizes of the asteroids to scale. For comparison, the approximate size of a person is also shown. This is based the absolute magnitude of each asteroid, an approximate measure of size based on brightness.
Absolute magnitude H ≥ 30 (smallest)
File:Silhouette of man standing and facing forward.svg (size of a person for comparison)
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|pie chart
|radius = 11
|slices =
( 2 : After closest approach : red )
( 2 : < 24 hours before : yellow )
( 1 : up to 7 days before : lightgrey )
( 0 : > one week before : green )
( 0 : > 7 weeks before : turquoise )
( 0 : > one year before : blue )
|percent = true
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Absolute magnitude 30 > H ≥ 29
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|pie chart
|radius = 17
|slices =
( 10 : After closest approach : red )
( 0 : < 24 hours before : yellow )
( 9 : up to 7 days before : lightgrey )
( 0 : > one week before : green )
( 0 : > 7 weeks before : turquoise )
( 0 : > one year before : blue )
|percent = true
|hide group legends = true
}}
Absolute magnitude 29 > H ≥ 28
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|pie chart
|radius = 27
|slices =
( 11 : After closest approach : red )
( 1 : < 24 hours before : yellow )
( 3 : up to 7 days before : lightgrey )
( 0 : > one week before : green )
( 0 : > 7 weeks before : turquoise )
( 0 : > one year before : blue )
|percent = true
|hide group legends = true
}}
Absolute magnitude 28 > H ≥ 27
{{#invoke:Chart
|pie chart
|radius = 43
|slices =
( 5 : After closest approach : red )
( 1 : < 24 hours before : yellow )
( 3 : up to 7 days before : lightgrey )
( 0 : > one week before : green )
( 0 : > 7 weeks before : turquoise )
( 0 : > one year before : blue )
|percent = true
|hide group legends = true
}}
Absolute magnitude 27 > H ≥ 26
{{#invoke:Chart
|pie chart
|radius = 68
|slices =
( 2 : After closest approach : red )
( 0 : < 24 hours before : yellow )
( 0 : up to 7 days before : lightgrey )
( 0 : > one week before : green )
( 0 : > 7 weeks before : turquoise )
( 0 : > one year before : blue )
|percent = true
|hide group legends = true
}}
Absolute magnitude 26 > H ≥ 25
{{#invoke:Chart
|pie chart
|radius = 107
|slices =
( 1 : After closest approach : red )
( 1 : < 24 hours before : yellow )
( 0 : up to 7 days before : lightgrey )
( 0 : > one week before : green )
( 0 : > 7 weeks before : turquoise )
( 0 : > one year before : blue )
|percent = true
}}
Absolute magnitude 25 > H (largest)
None
= Notes =
{{Reflist|group="note"}}
Timeline of close approaches less than one Lunar distance from the Moon in 2016
The number of asteroids listed here are significantly less than those of asteroids that approach Earth for several reasons. Asteroids that approach Earth not only move faster, but are brighter and are easier to detect with modern surveys because:
- Asteroids that come closer to Earth are a higher priority to confirm, and only confirmed asteroids are listed with a lunocentric approach distance.
- Those that closely approach the Moon are frequently lost in its glare, making them harder to confirm. They are easier to discover during the new Moon, when the Moon is too close to the Sun to detect asteroids while they are near the Moon.
These factors severely limit the amount of Moon-approaching asteroids, to a level many times lower than the asteroids detected passing as close to Earth.
| class="wikitable sortable"
! Date of ! Object ! Nominal lunocentric ! Nominal lunocentric ! data-sort-type="number"|Size (m) ! (H) ! | ||||||
| 2016-01-01 | {{mp|2016 AN|66}} | {{convert|0.00214|AU|km mi|abbr=on|lk=off}} | align="center"|0.83 | align="center"|7–24 | align="center"|27.3{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016AN66;cad=1#cad |title=JPL Small-Body Database Browser: (2016 AN66) |type=last observation: 2016-01-16}} | align="center"|1.45 |
| 2016-01-10 | {{mp|2016 AQ|164}} | {{convert|0.00125|AU|km mi|abbr=on|lk=off}} | align="center"|0.49 | align="center"|2–7 | align="center"|29.9 | align="center"|0.27 |
| 2016-01-11 | {{mp|2016 AH|164}} | {{convert|0.000632|AU|km mi|abbr=on|lk=off}} | align="center"|0.25 | align="center"|3–7 | align="center"|29.7 | align="center"|0.069 |
| 2016-02-07 | {{mp|2016 CG|18}} | {{convert|0.00141|AU|km mi|abbr=on|lk=off}} | align="center"|0.55 | align="center"|3–16 | align="center"|28.5 | align="center"|0.39 |
| 2016-02-10 | {{mp|2016 CW|264}} | {{convert|0.00195|AU|km mi|abbr=on|lk=off}} | align="center"|0.76 | align="center"|2–7 | align="center"|29.8 | align="center"|0.56 |
| 2016-02-13 | {{mp|2016 CM|194}} | {{convert|0.00204|AU|km mi|abbr=on|lk=off}} | align="center"|0.79 | align="center"|7–21 | align="center"|27.5 | align="center"|0.20 |
| 2016-02-26 | {{mp|2016 DY|30}} | {{convert|0.00189|AU|km mi|abbr=on|lk=off}} | align="center"|0.74 | align="center"|2–5 | align="center"|30.5 | align="center"|0.037 |
| 2016-02-29 | {{mp|2016 DA|31}} | {{convert|0.00127|AU|km mi|abbr=on|lk=off}} | align="center"|0.49 | align="center"|2–7 | align="center"|29.9 | align="center"|0.52 |
| 2016-03-03 | {{mp|2016 EK|1}} | {{convert|0.00100|AU|km mi|abbr=on|lk=off}} | align="center"|0.39 | align="center"|2–9 | align="center"|29.1 | align="center"|0.53 |
| 2016-03-04 | {{mp|2016 EL|1}} | {{convert|0.00158|AU|km mi|abbr=on|lk=off}} | align="center"|0.61 | align="center"|5–20 | align="center"|27.8 | align="center"|0.60 |
| 2016-03-05 | {{mp|2016 EG|1}} | {{convert|0.00256|AU|km mi|abbr=on|lk=off}} | align="center"|0.998 | align="center"|3–10 | align="center"|29.1{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016EG1;cad=1#cad |title=JPL Small-Body Database Browser: (2016 EG1) |type=last observation: 2016-03-04}} | align="center"|1.14 |
| 2016-03-08 | {{mp|2016 EV|28}} | {{convert|0.00116|AU|km mi|abbr=on|lk=off}} | align="center"|0.45 | align="center"|4–10 | align="center"|28.5 | align="center"|0.40 |
| 2016-03-09 | {{mp|2016 EN|157}} | {{convert|0.00228|AU|km mi|abbr=on|lk=off}} | align="center"|0.89 | align="center"|5–9 | align="center"|28.0 | align="center"|0.84 |
| 2016-03-10 | {{mp|2016 EF|195}} | {{convert|0.00160|AU|km mi|abbr=on|lk=off}} | align="center"|0.62 | align="center"|16–31 | align="center"|25.5 | align="center"|0.082 |
| 2016-03-14 | {{mp|2016 FC|1}} | {{convert|0.00131|AU|km mi|abbr=on|lk=off}} | align="center"|0.51 | align="center"|4–8 | align="center"|29.1 | align="center"|0.44 |
| 2016-03-21 | {{mp|2016 FN|56}} | {{convert|0.00256|AU|km mi|abbr=on|lk=off}} | align="center"|0.995For the Moon, the exact approach distance for {{mp|2016 FN|56}} is in high error, but with a higher certainty than to Earth: The error is slightly higher at 0.000208 AU, but as the approach distance is 0.0045 LD closer, the likelihood of a less-than-1-LD approach is nearly 0.6% higher. | align="center"|35–86 | align="center"|24.2{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016FN56;cad=1#cad |title=JPL Small-Body Database Browser: (2016 FN56) |type=last observation: 2016-04-05}} | align="center"|0.9995 |
| 2016-03-24 | {{mp|2016 FZ|13}} | {{convert|0.000942|AU|km mi|abbr=on|lk=off}} | align="center"|0.37 | align="center"|4–10 | align="center"|28.3 | align="center"|0.98 |
| 2016-03-26 | {{mp|2016 FU|6}} | {{convert|0.00213|AU|km mi|abbr=on|lk=off}} | align="center"|0.83 | align="center"|4–9 | align="center"|28.9 | align="center"|0.47 |
| 2016-03-28 | {{mp|2016 FE|15}} | {{convert|0.00124|AU|km mi|abbr=on|lk=off}} | align="center"|0.48 | align="center"|4–12 | align="center"|28.8 | align="center"|0.70 |
| 2016-04-03 | {{mp|2016 FB|13}} | {{convert|0.00232|AU|km mi|abbr=on|lk=off}} | align="center"|0.90 | align="center"|10–31 | align="center"|26.7{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016FB13;cad=1#cad |title=JPL Small-Body Database Browser: (2016 FB13) |type=last observation: 2016-04-02}} | align="center"|1.23 |
| 2016-04-04 | {{mp|2016 GN|134}} | {{convert|0.00220|AU|km mi|abbr=on|lk=off}} | align="center"|0.86 | align="center"|1–5 | align="center"|30.3 | align="center"|0.19 |
| 2016-04-11 | {{mp|2016 FV|13}} | {{convert|0.00232|AU|km mi|abbr=on|lk=off}} | align="center"|0.90 | align="center"|13–43 | align="center"|26.0{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016FV13;cad=1#cad |title=JPL Small-Body Database Browser: (2016 FV13) |type=last observation: 2016-04-10}} | align="center"|1.81 |
| 2016-05-06 | {{mp|2016 JS|5}} | {{convert|0.00160|AU|km mi|abbr=on|lk=off}} | align="center"|0.62 | align="center"|1–5 | align="center"|30.6 | align="center"|0.53 |
| 2016-06-04 | {{mp|2016 LR|51}} | {{convert|0.00215|AU|km mi|abbr=on|lk=off}} | align="center"|0.84 | align="center"|7–24 | align="center"|27.4 | align="center"|0.91 |
| 2016-06-09 | {{mp|2016 LP|10}} | {{convert|0.00204|AU|km mi|abbr=on|lk=off}} | align="center"|0.80 | align="center"|2–8 | align="center"|29.5 | align="center"|0.20 |
| 2016-09-02 | {{mp|2016 RS|1}} | {{convert|0.00242|AU|km mi|abbr=on|lk=off}} | align="center"|0.94 | align="center"|3–11 | align="center"|29.1 | align="center"|0.50 |
| 2016-09-07 | {{mp|2016 RK|40}} | {{convert|0.00128|AU|km mi|abbr=on|lk=off}} | align="center"|0.50 | align="center"|5–28 | align="center"|27.4{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016RK40;cad=1#cad |title=JPL Small-Body Database Browser: (2016 RK40) |type=last observation: 2016-09-14}} | align="center"|1.35 |
| 2016-09-08 | {{mp|2016 RB|1}} | {{convert|0.00192|AU|km mi|abbr=on|lk=off}} | align="center"|0.75 | align="center"|6–18 | align="center"|27.8 | align="center"|0.11 |
| 2016-09-10 | {{mp|2016 SF|1}} | {{convert|0.00156|AU|km mi|abbr=on|lk=off}} | align="center"|0.61 | align="center"|24–80 | align="center"|24.6{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016SF1;cad=1#cad |title=JPL Small-Body Database Browser: (2016 SF1) |type=last observation: 2016-09-26}} | align="center"|1.32 |
| 2016-09-10 | {{mp|2016 RE|34}} | {{convert|0.00217|AU|km mi|abbr=on|lk=off}} | align="center"|0.84 | align="center"|5–15 | align="center"|28.3{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016RE34;cad=1#cad |title=JPL Small-Body Database Browser: (2016 RE34) |type=last observation: 2016-09-17}} | align="center"|1.19 |
| 2016-10-03 | 2016 TH | {{convert|0.000908|AU|km mi|abbr=on|lk=off}} | align="center"|0.35 | align="center"|3–9 | align="center"|29.4 | align="center"|0.33 |
| 2016-10-07 | {{mp|2016 TG|94}} | {{convert|0.00179|AU|km mi|abbr=on|lk=off}} | align="center"|0.70 | align="center"|3–8 | align="center"|29.7 | align="center"|0.56 |
| 2016-10-10 | {{mp|2016 TS|54}} | {{convert|0.00210|AU|km mi|abbr=on|lk=off}} | align="center"|0.82 | align="center"|6–18 | align="center"|27.9 | align="center"|0.20 |
| 2016-10-18 | 2016 UD | {{convert|0.00107|AU|km mi|abbr=on|lk=off}} | align="center"|0.42 | align="center"|10–33 | align="center"|26.6 | align="center"|0.19 |
| 2016-11-02 | 2016 VA | {{convert|0.00229|AU|km mi|abbr=on|lk=off}} | align="center"|0.89 | align="center"|6–27 | align="center"|27.3 | align="center"|0.24 |
| 2016-11-05 | XV88D4F | {{convert|0.00251|AU|km mi|abbr=on|lk=off}} | align="center"|0.98 | align="center"|2–7 | align="center"|30.0 | align="center"|0.095 |
| 2016-11-08 | {{mp|2016 VB|1}} | {{convert|0.00232|AU|km mi|abbr=on|lk=off}} | align="center"|0.90 | align="center"|4–15 | align="center"|28.4 | align="center"|0.70 |
| 2016-11-10 | {{mp|2016 VF|18}} | {{convert|0.00220|AU|km mi|abbr=on|lk=off}} | align="center"|0.85 | align="center"|2–8 | align="center"|29.9 | align="center"|0.18 |
| 2016-11-17 | 2016 WY | {{convert|0.00242|AU|km mi|abbr=on|lk=off}} | align="center"|0.94 | align="center"|3–10 | align="center"|29.3{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016WY;cad=1#cad |title=JPL Small-Body Database Browser: (2016 WY) |type=last observation: 2016-11-21}} | align="center"|1.73 |
| 2016-11-17 | 2016 WT | {{convert|0.00229|AU|km mi|abbr=on|lk=off}} | align="center"|0.89 | align="center"|2–8 | align="center"|29.7 | align="center"|0.50 |
| 2016-11-25 | {{mp|2016 WW|2}} | {{convert|0.000997|AU|km mi|abbr=on|lk=off}} | align="center"|0.39 | align="center"|3–11 | align="center"|29.0 | align="center"|0.35 |
| 2016-11-27 | {{mp|2016 WR|55}} | {{convert|0.00255|AU|km mi|abbr=on|lk=off}} | align="center"|0.991 | align="center"|5–15 | align="center"|28.3{{cite web |url=http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2016WR55;cad=1#cad |title=JPL Small-Body Database Browser: (2016 WR55) |type=last observation: 2016-11-25}} | align="center"|1.13 |
| 2016-11-30 | {{mp|2016 XL|23}} | {{convert|0.00169|AU|km mi|abbr=on|lk=off}} | align="center"|0.66 | align="center"|3–10 | align="center"|29.3 | align="center"|0.23 |
= Notes =
{{Reflist|group="note2"}}
Additional examples
An example list of near-Earth asteroids that passed more than 1 lunar distance (384,400 km or 0.00256 AU) from Earth in 2016.
- {{mp|2015 YC|2}} (~102 meters in diameter) passed 4.92 Lunar distances (1.9 million km) from Earth on 15 January 2016.
- XBBE860 (~8 meters in diameter) passed 1.13 lunar distances (435,000 km) from Earth on 1 February 2016.
- P10tc2W (~10 meters in diameter) passed 1.02 lunar distances (391,000 km) from Earth on 6 March 2016
- {{mpl|2013 TX|68}} (~30 meters in diameter) may have passed as close as 0.07 lunar distances (30,000 km) from Earth around 5–6 March 2016, but the best fitting orbital solution suggests that it passed roughly 11 lunar distances (4 million km) from Earth around 8 March 2016. {{mpl|2013 TX|68}} has not been observed since 2013 and was not recovered during the 2016 passage.
- 252P/LINEAR (~900 meters in diameter) passed 13.9 lunar distances (5.3 million km) from Earth on 21 March 2016
- Comet P/2016 BA14 (~1000 meters in diameter) passed 9.2 lunar distances (3.5 million km) from Earth on 22 March 2016.[http://www.jpl.nasa.gov/news/news.php?feature=6180 Comet Flying by Earth Observed with Radar and Infrared]. NASA press release. 24 March 2016.
- {{mp|2014 JG|55}} (~6 meters in diameter) has a minimum estimated approach on May 8, 2016 of 0.82 lunar distances (315,000 km) from Earth. However the best fit calculates an approach of 7.6 lunar distances (2.9 million km) from Earth.
- {{mp|2009 DL|46}} (~200 meters in diameter) passed 6.2 lunar distances (2.4 million km) from Earth on May 24, 2016.
- {{mp|2016 FE|13}} (~23 meters in diameter) passed 27.98 lunar distances (10.7 million km) from Earth on March 26, 2016[http://newton.dm.unipi.it/neodys/index.php?pc=1.1.8&n=2016FE13 Near Earth Objects - Dynamic Site 2016FE13 ▹ CLOSE APPROACHES]
- 2016 PQ (~30 meters in diameter) passed 9.80 lunar distances (3.8 million km) from Earth on August 7, 2016.
- {{mp|2016 SW|3}} (~8 meters in diameter) passed between 1.0012 and 1.0029 lunar distances (385,000 km) from Earth on September 26, 2016.
- {{mp|2016 UQ|36}} (~11 meters in diameter) passed 1.033 lunar distances (397,000 km) from Earth on October 24, 2016
- {{mp|2017 AG|5}} (~108 meters in diameter) passed 4.6 Lunar distances (1.75 million km) from Earth on 30 December 2016
Other objects
XF38FAC (Satellite 2015-007B) with an observation arc of only 17 minutes was estimated to have a chance of impacting Earth at 16:51 on 20 March 2016,[http://www.projectpluto.com/neocp2/mpecs/XF38FAC.htm XF38FAC at Project Pluto] {{webarchive|url=https://web.archive.org/web/20160320205525/http://www.projectpluto.com/neocp2/mpecs/XF38FAC.htm |date=2016-03-20 }} but turned out to be the SpaceX Falcon 9 second stage that sent Deep Space Climate Observatory out to L1.