As Ice Recedes and Land Rebounds, Antarctica's Mineral Resources Come into Focus

@media ( min-width: 728px ){.newspack_global_ad.global_above_header{min-height: 90px;}} Close Search for: Search Close About Special Reports Topics Climate Earth Science Oceans Space & Planets Health & Ecosystems Culture & Policy Education & Careers Opinions Projects Postcards From the Field ENGAGE Editors' Highlights Editors' Vox Eos en Español Eos 简体中文版 Print Archive: 2015–2025 Policy Tracker Blogs Research & Developments The Landslide Blog Newsletter Submit to Eos Skip to content Menu .site-header .custom-logo{height: 74px;max-height: 540px;max-width: 600px;width: 145px;}@media (max-width: 781px){.site-header .custom-logo{max-width: 127px;max-height: 65px;}}@media (min-width: 782px){.h-stk:not(.h-sub) .site-header .custom-logo{max-height: 90px;max-width: 176px;}.h-sub .site-header .custom-logo{max-width: 118px;max-height: 60px;}}@media (max-width: 1199px) and (min-width: 782px){.h-stk.h-cl:not(.h-sub) .site-header .custom-logo{max-width: 100%;width: auto;}} Eos Science News by AGU Support Eos Sign Up for Newsletter Menu Open Search Search for: Search Posted in News As Ice Recedes and Land Rebounds, Antarctica's Mineral Resources Come into Focus Melting ice, rebounding land, and rising seas will change what resources are available in Antarctica, a new analysis finds. by Grace van Deelen 30 March 2026 30 March 2026 Share this: Print (Opens in new window) Print Email a link to a friend (Opens in new window) Email Share on Bluesky (Opens in new window) Bluesky Share on Reddit (Opens in new window) Reddit Share on Facebook (Opens in new window) Facebook Share on LinkedIn (Opens in new window) LinkedIn A new analysis projects that as much as 120,610 square kilometers of new, ice-free land could emerge in Antarctica by 2300. Credit: NASA/Jim Ross A warming climate could expose a Pennsylvania-sized chunk of ice-free land in Antarctica by 2300, which could drastically reshape Antarctic geopolitics as well as the continent's geography. A study published in Nature Climate Change is the first to incorporate glacial isostatic adjustment—how land beneath heavy ice sheets uplifts after the ice retreats—into projections of ice-free land emergence in Antarctica. The results reveal that climate change could expose potentially valuable mineral resources that may spur renegotiations of the international treaties that currently govern Antarctica. As more ice-free land emerges in Antarctica, said Erica Lucas , a geophysicist at the University of California, Santa Cruz, countries may become more interested in its mineral resource potential. Lucas is the lead author of the new study. This newsletter rocks. Get the most fascinating science news stories of the week in your inbox every Friday. Sign up now Rebounding Resources Beneath Antarctica's ice sheet lies a varied landscape with mountains, canyons, valleys, and even volcanoes. As the climate warms, the ice sheet is slowly retreating, uncovering some of that land. But until now, projections of ice-free land emergence had considered only changes to ice margins—how the spatial extent of ice cover will shift. Simulations of Antarctica's future accessible land hadn't considered how land would uplift once uncovered by ice or how different sea level scenarios would affect the amount of ice-free land that might emerge. Lucas's projections included these factors by incorporating expected sea level changes, information about the thickness of Earth's lithosphere, and estimates of how the absence of the gravitational pull of an ice sheet would affect land uplift. The study estimated that 120,610 square kilometers (46,578 square miles), 36,381 square kilometers (14,047 square miles), and 149 square kilometers (58 square miles) of land would emerge by 2300 under high–, medium–, and low–ice melt conditions, respectively. "We know we've had ice retreat and grounding line retreat over the past couple of decades," so the ranges of projected ice-free land emergence were not surprising, Lucas said. South Pole Politics Within the area that Lucas and the research team projected would be ice-free by 2300 lie known or suspected deposits of copper, gold, silver, iron, and platinum— critical minerals used in manufacturing and valuable metals in and of themselves. In particular, the study found the largest land emergence in Antarctica is likely to occur over territories claimed by Argentina, Chile, and the United Kingdom and contains a range of mineral deposits, including copper, gold, silver, and iron. Currently, commercial mineral extraction is not allowed in Antarctica, though the Antarctic Treaty does allow for activities related to mineral resources if they are conducted strictly for scientific purposes. If mineral resources become simpler to extract, countries with territorial claims in Antarctica would have an incentive to renegotiate those terms, the study's authors suggest. The first window for renegotiation is in 2048, when parties to the Antarctic Treaty are permitted to call for a review of the treaty's environmental protocol . "The continent will still remain a very challenging environment for mineral resource extraction." The authors suggest that these changes to Antarctic land could put pressure on the region's legal framework surrounding mineral resource activities. "That's a fair assessment," wrote Tim Stephens , a professor of international law at the University of Sydney Law School who was not involved in the new study, in an email. "However, the ice-free land emergence projected by the new study is unlikely to trigger a major change to Antarctic governance on its own," he wrote. "The continent will still remain a very challenging environment for mineral resource extraction," he wrote, adding that the transformation of the Antarctic environment could also spur greater cooperation and focus on the environmental protection objectives of the Antarctic Treaty. —Grace van Deelen ( @gvd.bsky.social ), Staff Writer This news article is included in our ENGAGE resource for educators seeking science news for their classroom lessons. Browse all ENGAGE articles , and share with your fellow educators how you integrated the article into an activity in the comments section below. Citation:  van Deelen, G. (2026), As ice recedes and land rebounds, Antarctica's mineral resources come into focus,  Eos, 107, https://doi.org/10.1029/2026EO260103 . Published on 30 March 2026. Text © 2026. AGU. 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