Russian forest sequesters substantially more carbon than previously reported

Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge...

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Vydáno v:	Scientific reports Ročník 11; číslo 1; s. 12825 - 7
Hlavní autoři:	Schepaschenko, Dmitry, Moltchanova, Elena, Fedorov, Stanislav, Karminov, Victor, Ontikov, Petr, Santoro, Maurizio, See, Linda, Kositsyn, Vladimir, Shvidenko, Anatoly, Romanovskaya, Anna, Korotkov, Vladimir, Lesiv, Myroslava, Bartalev, Sergey, Fritz, Steffen, Shchepashchenko, Maria, Kraxner, Florian
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	London Nature Publishing Group UK 17.06.2021 Nature Publishing Group Nature Portfolio
Témata:	631/158/1145 631/158/2454 704/106/694/2739 Biomass Forest management Forests Greenhouse gases Humanities and Social Sciences multidisciplinary National forests Remote sensing Science Science (multidisciplinary) Union of Soviet Socialist Republics > USSR Russia
ISSN:	2045-2322, 2045-2322
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Abstract	Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge these statistics with a combination of recent National Forest Inventory and remote sensing data to provide an alternative estimate of the growing stock of Russian forests and to assess the relative changes in post-Soviet Russia. Our estimate for the year 2014 is 111 ± 1.3 × 10 9 m 3 , or 39% higher than the value in the State Forest Register. Using the last Soviet Union report as a reference, Russian forests have accumulated 1163 × 10 6 m 3 yr -1 of growing stock between 1988–2014, which balances the net forest stock losses in tropical countries. Our estimate of the growing stock of managed forests is 94.2 × 10 9 m 3 , which corresponds to sequestration of 354 Tg C yr -1 in live biomass over 1988–2014, or 47% higher than reported in the National Greenhouse Gases Inventory.
AbstractList	Abstract Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge these statistics with a combination of recent National Forest Inventory and remote sensing data to provide an alternative estimate of the growing stock of Russian forests and to assess the relative changes in post-Soviet Russia. Our estimate for the year 2014 is 111 ± 1.3 × 109 m3, or 39% higher than the value in the State Forest Register. Using the last Soviet Union report as a reference, Russian forests have accumulated 1163 × 106 m3 yr-1 of growing stock between 1988–2014, which balances the net forest stock losses in tropical countries. Our estimate of the growing stock of managed forests is 94.2 × 109 m3, which corresponds to sequestration of 354 Tg C yr-1 in live biomass over 1988–2014, or 47% higher than reported in the National Greenhouse Gases Inventory. Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge these statistics with a combination of recent National Forest Inventory and remote sensing data to provide an alternative estimate of the growing stock of Russian forests and to assess the relative changes in post-Soviet Russia. Our estimate for the year 2014 is 111 ± 1.3 × 109 m3, or 39% higher than the value in the State Forest Register. Using the last Soviet Union report as a reference, Russian forests have accumulated 1163 × 106 m3 yr-1 of growing stock between 1988–2014, which balances the net forest stock losses in tropical countries. Our estimate of the growing stock of managed forests is 94.2 × 109 m3, which corresponds to sequestration of 354 Tg C yr-1 in live biomass over 1988–2014, or 47% higher than reported in the National Greenhouse Gases Inventory. Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge these statistics with a combination of recent National Forest Inventory and remote sensing data to provide an alternative estimate of the growing stock of Russian forests and to assess the relative changes in post-Soviet Russia. Our estimate for the year 2014 is 111 ± 1.3 × 10 9 m 3 , or 39% higher than the value in the State Forest Register. Using the last Soviet Union report as a reference, Russian forests have accumulated 1163 × 10 6 m 3 yr -1 of growing stock between 1988–2014, which balances the net forest stock losses in tropical countries. Our estimate of the growing stock of managed forests is 94.2 × 10 9 m 3 , which corresponds to sequestration of 354 Tg C yr -1 in live biomass over 1988–2014, or 47% higher than reported in the National Greenhouse Gases Inventory. Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge these statistics with a combination of recent National Forest Inventory and remote sensing data to provide an alternative estimate of the growing stock of Russian forests and to assess the relative changes in post-Soviet Russia. Our estimate for the year 2014 is 111 ± 1.3 × 109 m3, or 39% higher than the value in the State Forest Register. Using the last Soviet Union report as a reference, Russian forests have accumulated 1163 × 106 m3 yr-1 of growing stock between 1988-2014, which balances the net forest stock losses in tropical countries. Our estimate of the growing stock of managed forests is 94.2 × 109 m3, which corresponds to sequestration of 354 Tg C yr-1 in live biomass over 1988-2014, or 47% higher than reported in the National Greenhouse Gases Inventory.Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge these statistics with a combination of recent National Forest Inventory and remote sensing data to provide an alternative estimate of the growing stock of Russian forests and to assess the relative changes in post-Soviet Russia. Our estimate for the year 2014 is 111 ± 1.3 × 109 m3, or 39% higher than the value in the State Forest Register. Using the last Soviet Union report as a reference, Russian forests have accumulated 1163 × 106 m3 yr-1 of growing stock between 1988-2014, which balances the net forest stock losses in tropical countries. Our estimate of the growing stock of managed forests is 94.2 × 109 m3, which corresponds to sequestration of 354 Tg C yr-1 in live biomass over 1988-2014, or 47% higher than reported in the National Greenhouse Gases Inventory. Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and biomass (+ 0.6%). Yet remote sensing products indicate increased vegetation productivity, tree cover and above-ground biomass. Here, we challenge these statistics with a combination of recent National Forest Inventory and remote sensing data to provide an alternative estimate of the growing stock of Russian forests and to assess the relative changes in post-Soviet Russia. Our estimate for the year 2014 is 111 ± 1.3 × 109 m3, or 39% higher than the value in the State Forest Register. Using the last Soviet Union report as a reference, Russian forests have accumulated 1163 × 106 m3 yr-1 of growing stock between 1988–2014, which balances the net forest stock losses in tropical countries. Our estimate of the growing stock of managed forests is 94.2 × 109 m3, which corresponds to sequestration of 354 Tg C yr-1 in live biomass over 1988–2014, or 47% higher than reported in the National Greenhouse Gases Inventory.
ArticleNumber	12825
Author	Santoro, Maurizio Kositsyn, Vladimir Korotkov, Vladimir Fedorov, Stanislav Moltchanova, Elena Fritz, Steffen Shchepashchenko, Maria See, Linda Lesiv, Myroslava Karminov, Victor Ontikov, Petr Romanovskaya, Anna Shvidenko, Anatoly Schepaschenko, Dmitry Bartalev, Sergey Kraxner, Florian
Author_xml	– sequence: 1 givenname: Dmitry surname: Schepaschenko fullname: Schepaschenko, Dmitry email: schepd@iiasa.ac.at organization: Center for Forest Ecology and Productivity of the Russian Academy of Sciences, International Institute for Applied Systems Analysis, Siberian Federal University – sequence: 2 givenname: Elena surname: Moltchanova fullname: Moltchanova, Elena organization: School of Mathematics and Statistics, University of Canterbury – sequence: 3 givenname: Stanislav surname: Fedorov fullname: Fedorov, Stanislav organization: FSBI Roslesinforg, Federal Forestry Agency – sequence: 4 givenname: Victor surname: Karminov fullname: Karminov, Victor organization: Center for Forest Ecology and Productivity of the Russian Academy of Sciences, Russian Institute of Continuous Education in Forestry – sequence: 5 givenname: Petr surname: Ontikov fullname: Ontikov, Petr organization: FSBI Roslesinforg, Federal Forestry Agency – sequence: 6 givenname: Maurizio surname: Santoro fullname: Santoro, Maurizio organization: Gamma Remote Sensing – sequence: 7 givenname: Linda surname: See fullname: See, Linda organization: International Institute for Applied Systems Analysis – sequence: 8 givenname: Vladimir surname: Kositsyn fullname: Kositsyn, Vladimir organization: Federal Forestry Agency – sequence: 9 givenname: Anatoly surname: Shvidenko fullname: Shvidenko, Anatoly organization: International Institute for Applied Systems Analysis, V.N. Sukachev Institute of Forest, Siberian Branch of the Russian Academy of Science – sequence: 10 givenname: Anna surname: Romanovskaya fullname: Romanovskaya, Anna organization: Yu. A. Izrael Institute of Global Climate and Ecology – sequence: 11 givenname: Vladimir surname: Korotkov fullname: Korotkov, Vladimir organization: Yu. A. Izrael Institute of Global Climate and Ecology – sequence: 12 givenname: Myroslava surname: Lesiv fullname: Lesiv, Myroslava organization: International Institute for Applied Systems Analysis – sequence: 13 givenname: Sergey surname: Bartalev fullname: Bartalev, Sergey organization: Space Research Institute of the Russian Academy of Sciences – sequence: 14 givenname: Steffen surname: Fritz fullname: Fritz, Steffen organization: International Institute for Applied Systems Analysis – sequence: 15 givenname: Maria surname: Shchepashchenko fullname: Shchepashchenko, Maria organization: Russian Institute of Continuous Education in Forestry – sequence: 16 givenname: Florian surname: Kraxner fullname: Kraxner, Florian organization: International Institute for Applied Systems Analysis
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Snippet	Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%) and... Abstract Since the collapse of the Soviet Union and transition to a new forest inventory system, Russia has reported almost no change in growing stock (+ 1.8%)...
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SubjectTerms	631/158/1145 631/158/2454 704/106/694/2739 Biomass Forest management Forests Greenhouse gases Humanities and Social Sciences multidisciplinary National forests Remote sensing Science Science (multidisciplinary)
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Title	Russian forest sequesters substantially more carbon than previously reported
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