Author Correction: Boreal forest biomass accumulation is not increased by two decades of soil warming

Boreal forest biomass accumulation is not increased by two decades of soil warming

Nature Climate Change ◽

10.1038/s41558-018-0373-9 ◽

2018 ◽

Vol 9 (1) ◽

pp. 49-52 ◽

Cited By ~ 10

Author(s):

Hyungwoo Lim ◽

Ram Oren ◽

Torgny Näsholm ◽

Monika Strömgren ◽

Tomas Lundmark ◽

...

Keyword(s):

Boreal Forest ◽

Forest Biomass ◽

Biomass Accumulation ◽

Soil Warming

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Publisher Correction: Boreal forest biomass accumulation is not increased by two decades of soil warming

Nature Climate Change ◽

10.1038/s41558-019-0413-0 ◽

2019 ◽

Vol 9 (3) ◽

pp. 253-253

Author(s):

Hyungwoo Lim ◽

Ram Oren ◽

Torgny Näsholm ◽

Monika Strömgren ◽

Tomas Lundmark ◽

...

Keyword(s):

Boreal Forest ◽

Forest Biomass ◽

Biomass Accumulation ◽

Soil Warming

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Review for "Negative trait‐based association between abundance of nitrogen‐fixing trees and long‐term tropical forest biomass accumulation"

10.1111/1365-2745.13524/v1/review1 ◽

2020 ◽

Keyword(s):

Tropical Forest ◽

Forest Biomass ◽

Biomass Accumulation ◽

Nitrogen Fixing ◽

Negative Trait ◽

Nitrogen Fixing Trees

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Estimation of boreal forest biomass from two-level model inversion of interferometric TanDEM-X data

2014 IEEE Geoscience and Remote Sensing Symposium ◽

10.1109/igarss.2014.6947210 ◽

2014 ◽

Cited By ~ 5

Author(s):

Maciej J. Soja ◽

Henrik Persson ◽

Lars M. H. Ulander

Keyword(s):

Boreal Forest ◽

Forest Biomass ◽

Model Inversion ◽

Level Model ◽

Two Level Model

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Changes in biomass and production over 53 years in a coastal Piceasitchensis –Tsugaheterophylla forest approaching maturity

Canadian Journal of Forest Research ◽

10.1139/x90-212 ◽

1990 ◽

Vol 20 (10) ◽

pp. 1602-1610 ◽

Cited By ~ 23

Author(s):

P. A. Harcombe ◽

Mark E. Harmon ◽

Sarah E. Greene

Keyword(s):

Primary Production ◽

Fine Roots ◽

Net Primary Production ◽

Forest Biomass ◽

Biomass Accumulation ◽

Maintenance Respiration ◽

Bole Biomass

Using periodic remeasurements of tagged trees in nine 0.4-ha sample plots in a Piceasitchensis (Bong.) Carr. – Tsugaheterophylla (Raf.) Sarg. forest at Cascade Hand Experimental Forest, Oregon, we calculated that biomass of bolewood increased from 570 Mg•ha−1 at age 85 years to 760 Mg•ha−1 at age 138 years. Net primary production of bolewood declined from 11 to about 6 Mg•ha−1•year−1, and mortality loss increased from 2 to about 6 Mg•ha−1•year−1. Values for 37-year-old plots in the same area were 210–360 Mg•ha−1•year−1 bole biomass, 7–20 Mg•ha−1•year−1 bolewood production, and 0–2 Mg•ha−1•year−1 mortality loss. Indications are that bolewood production and biomass were lower in the older plots when they were 37 years old. In the older plots, biomass did not increase between ages 120 and 138. Of the photosynthate potentially available for bolewood production, some replaces biomass lost via mortality and some is allocated to maintenance (respiration plus allocation to fine roots). We estimate that one-quarter to one-half of the production is lost by mortality, and that mortality loss may thus be an important factor limiting forest biomass accumulation.

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Secondary forest structure and biomass following short and extended land-use in central and southern Amazonia

Journal of Tropical Ecology ◽

10.1017/s0266467400001656 ◽

2000 ◽

Vol 16 (5) ◽

pp. 689-708 ◽

Cited By ~ 62

Author(s):

Marc K. Steininger

Keyword(s):

Land Use ◽

Secondary Forest ◽

Forest Biomass ◽

Biomass Accumulation ◽

Stand Age ◽

Total Biomass ◽

Forest Regrowth ◽

Age Sequence ◽

Southern Amazonia ◽

Made In

A study was conducted on the effect of extended land-use on secondary forest biomass accumulation in the Amazon. Structural measurements were made in a series of secondary forest stands, from 4–30 y old, in Brazil and Bolivia. Half of the stands were forest regrowth following clearance and only 1 y of cultivation; the other half were regrowth following 4 y or more of continuous pasture in Brazil and three or more rotations of medium-fallow agriculture in Bolivia. Above-ground live biomass was estimated using published allometric equations. Total biomass ranged from 17 to 207 Mg ha−1. Biomass of pioneer trees was poorly related to stand age, while that of later-successional trees increased linearly with age. Total biomass accumulation in Bolivia averaged 5.4 Mg ha−1 y−1 over the entire age sequence. Biomass accumulation for regrowth following short-term use was not greater than that for regrowth following medium-fallow agriculture. In Brazil, biomass accumulation averaged 9.1 Mg ha−1 y−1 over the first 12 y of regrowth and 5.9 Mg ha−1 y−1 over the entire age sequence. Biomass accumulation was significantly slower, around 5.0 Mg ha−1 y−1, for regrowth following continuous pasture than for regrowth following 1 y of cultivation.

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