SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2035893301> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W2035893301 endingPage "97" @default.
W2035893301 startingPage "88" @default.
W2035893301 abstract "Abstract The storage and flow of carbon (C) into and out of forests can differ under the influence of dominant tree species because of species-based variation in C production, decomposition, retention, and harvest-based export. Following abandonment of agricultural activities in the first half of the 20th century, many landscapes of the Great Lakes region (USA) were planted to red pine (Pinus resinosa) or naturally regenerated to northern hardwood species including sugar maple (Acer saccharum), red oak (Quercus rubra) and red maple (Acer rubrum). We located eight pairs of adjacent, similarly aged (∼60 yr) stands of planted red pine and naturally regenerated hardwood forests on previous agricultural fields. We found that the hardwood forests stored more C than pine stands (255 vs. 201 Mg C ha−1), with both storing substantially more than an adjacent area maintained as pasture (107 Mg C ha−1). The greater accumulation of C in the hardwood stands occurred mostly in living biomass. No significant differences for soil C (to 1 m depth) were found between forest types, despite significantly higher belowground inputs and aboveground litterfall in hardwood stands. Notably, both forest types had about 18% more soil C than the pasture, with O horizon C accounting for about one-third of the increase under trees. Forest type had no significant effect on estimated amount of exported C despite fairly large differences in projected end uses (solid wood products, land-fills, bioenergy). Using adjacent pasture as our baseline condition, we combined estimated on-site accumulation rates with estimates of exported C, and found that average total C sequestration rates were higher for hardwood (2.9 Mg C ha−1 yr−1) than red pine plots (2.3 Mg C ha−1 yr−1). The modeled potential contribution of exported C to these sequestration rate estimates did not differ between species, but the fate of modeled post-harvest off-site C may exert a large influence on sequestration rate estimates depending on actual displacement actions, including product longevity. These results show that tree species selection has the potential to impact C sequestration rates but effects vary by ecosystem component and could not be predicted from previous species effects studies." @default.
W2035893301 created "2016-06-24" @default.
W2035893301 creator A5005931800 @default.
W2035893301 creator A5014784043 @default.
W2035893301 creator A5057421582 @default.
W2035893301 creator A5076238110 @default.
W2035893301 creator A5087567263 @default.
W2035893301 creator A5087616136 @default.
W2035893301 date "2015-02-01" @default.
W2035893301 modified "2023-09-27" @default.
W2035893301 title "Carbon fluxes, storage and harvest removals through 60years of stand development in red pine plantations and mixed hardwood stands in Northern Michigan, USA" @default.
W2035893301 cites W1519637993 @default.
W2035893301 cites W1538806454 @default.
W2035893301 cites W1544268999 @default.
W2035893301 cites W1964840488 @default.
W2035893301 cites W1966656616 @default.
W2035893301 cites W1970991282 @default.
W2035893301 cites W1976357990 @default.
W2035893301 cites W1991079591 @default.
W2035893301 cites W1992289111 @default.
W2035893301 cites W1995024181 @default.
W2035893301 cites W1997251559 @default.
W2035893301 cites W2003905260 @default.
W2035893301 cites W2004535363 @default.
W2035893301 cites W2006184023 @default.
W2035893301 cites W2008340453 @default.
W2035893301 cites W2010838145 @default.
W2035893301 cites W2013933762 @default.
W2035893301 cites W2016436870 @default.
W2035893301 cites W2017062184 @default.
W2035893301 cites W2032095870 @default.
W2035893301 cites W2034940081 @default.
W2035893301 cites W2035800981 @default.
W2035893301 cites W2035949894 @default.
W2035893301 cites W2043873650 @default.
W2035893301 cites W2044238703 @default.
W2035893301 cites W2046471842 @default.
W2035893301 cites W2046788667 @default.
W2035893301 cites W2047438552 @default.
W2035893301 cites W2050079933 @default.
W2035893301 cites W2053611340 @default.
W2035893301 cites W2056073115 @default.
W2035893301 cites W2056169205 @default.
W2035893301 cites W2061936519 @default.
W2035893301 cites W2062680104 @default.
W2035893301 cites W2071543458 @default.
W2035893301 cites W2071638156 @default.
W2035893301 cites W2078423321 @default.
W2035893301 cites W2079272158 @default.
W2035893301 cites W2084715672 @default.
W2035893301 cites W2087302525 @default.
W2035893301 cites W2090944188 @default.
W2035893301 cites W2104594658 @default.
W2035893301 cites W2105436398 @default.
W2035893301 cites W2105833160 @default.
W2035893301 cites W2108920378 @default.
W2035893301 cites W2111682643 @default.
W2035893301 cites W2114868111 @default.
W2035893301 cites W2120019131 @default.
W2035893301 cites W2122133520 @default.
W2035893301 cites W2122327500 @default.
W2035893301 cites W2125103457 @default.
W2035893301 cites W2137151605 @default.
W2035893301 cites W2137745551 @default.
W2035893301 cites W2145097912 @default.
W2035893301 cites W2147441934 @default.
W2035893301 cites W2151303612 @default.
W2035893301 cites W2153306908 @default.
W2035893301 cites W2153362841 @default.
W2035893301 cites W2155586885 @default.
W2035893301 cites W2161878742 @default.
W2035893301 cites W2165451594 @default.
W2035893301 cites W2169112091 @default.
W2035893301 cites W2174069807 @default.
W2035893301 cites W2333547915 @default.
W2035893301 cites W414169695 @default.
W2035893301 cites W66409544 @default.
W2035893301 doi "https://doi.org/10.1016/j.foreco.2014.10.037" @default.
W2035893301 hasPublicationYear "2015" @default.
W2035893301 type Work @default.
W2035893301 sameAs 2035893301 @default.
W2035893301 citedByCount "26" @default.
W2035893301 countsByYear W20358933012015 @default.
W2035893301 countsByYear W20358933012016 @default.
W2035893301 countsByYear W20358933012017 @default.
W2035893301 countsByYear W20358933012018 @default.
W2035893301 countsByYear W20358933012019 @default.
W2035893301 countsByYear W20358933012020 @default.
W2035893301 countsByYear W20358933012021 @default.
W2035893301 countsByYear W20358933012022 @default.
W2035893301 countsByYear W20358933012023 @default.
W2035893301 crossrefType "journal-article" @default.
W2035893301 hasAuthorship W2035893301A5005931800 @default.
W2035893301 hasAuthorship W2035893301A5014784043 @default.
W2035893301 hasAuthorship W2035893301A5057421582 @default.
W2035893301 hasAuthorship W2035893301A5076238110 @default.
W2035893301 hasAuthorship W2035893301A5087567263 @default.
W2035893301 hasAuthorship W2035893301A5087616136 @default.