| FOREST ECOLOGY AND MANAGEMENT | 卷:424 |
| Carbon accumulation in loblolly pine plantations is increased by fertilization across a soil moisture availability gradient | |
| Article | |
| Bracho, Rosvel1 Vogel, Jason G.1 Will, Rodney E.2 Noormets, Asko3 Samuelson, Lisa J.4 Jokela, Eric J.1 Gonzalez-Benecke, Carlos A.5 Gezan, Salvador A.1 Markewitz, Daniel6 Seiler, John R.7 Strahm, Brian D.7 Teskey, Robert O.6 Fox, Thomas R.7 Kane, Michael B.6 Laviner, Marshall A.7 McElligot, Kristin M.7 Yang, Jinyan6 Lin, Wen8 Meek, Cassandra R.2 Cucinella, Joshua1 Akers, Madison K.9 Martin, Timothy A.1 | |
| [1] Univ Florida, Sch Forest Resources & Conservat, Gainesville, FL 32611 USA | |
| [2] Oklahoma State Univ, Dept Nat Resource Ecol & Management, Stillwater, OK 74078 USA | |
| [3] Texas A&M Univ, Dept Ecosyst Sci & Management, College Stn, TX 77843 USA | |
| [4] Auburn Univ, Sch Forestry & Wildlife Sci, Auburn, AL 36840 USA | |
| [5] Oregon State Univ, Coll Forestry, Dept Forest Engn Resources & Management, Corvallis, OR 97331 USA | |
| [6] Univ Georgia, Warnell Sch Forestry & Nat Resources, Athens, GA 30602 USA | |
| [7] Virginia Polytech Inst & State Univ, Dept Forest Resources & Environm Conservat, Blacksburg, VA 24061 USA | |
| [8] North Carolina State Univ, Dept Forestry & Environm Resources, 2820 Faucette Dr, Raleigh, NC 27606 USA | |
| [9] Dougherty & Dougherty Forestry Serv Inc, Wake Forest, NC 27588 USA | |
| 关键词: Loblolly pine; Southeastern; Fertilization; Throughfall reduction; Drought; NPP; Carbon accumulation; Soil respiration; | |
| DOI : 10.1016/j.foreco.2018.04.029 | |
| 来源: Elsevier | |
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【 摘 要 】
Silvicultural practices, particularly fertilization, may counteract or accentuate the effects of climate change on carbon cycling in planted pine ecosystems, but few studies have empirically assessed the potential effects. In the southeastern United States, we established a factorial throughfall reduction (D) x fertilization (F) experiment in 2012 in four loblolly pine (Paws taeda L.) plantations encompassing the climatic range of the species in Florida (FL), Georgia (GA), Oklahoma (OK), and Virginia (VA). Net primary productivity (NPP) was estimated from tree inventories for four consecutive years, and net ecosystem productivity (NEP) as NPP minus heterotrophic respiration (R-H). Soil respiration (R-S) was measured biweekly-monthly for at least one year at each site and simultaneous measurements of R-S & R-H were taken five to eight times through the year for at least one year during the experiment. Reducing throughfall by 30% decreased available soil water at the surface and for the 0-90 cm soil profile. Fertilization increased NPP at all sites and D decreased NPP (to a lesser extent) at the GA and OK sites. The F + D treatment did not affect NPP. Mean annual NPP under F ranged from 10.01 +/- 0.21 MgC center dot ha(-1).yr(-1) at VA (mean +/- SE) to 17.20 +/- 0.50 MgC center dot ha(-1).yr(-1) at FL, while the lowest levels were under the D treatment, ranging from 8.63 +/- 0.21 MgC center dot ha(-1).yr(-1) at VA to 14.97 +/- 0.50 MgC center dot ha(-1).yr(-1) at FL. R-S and R-H were, in general, decreased by F and D with differential responses among sites, leading to NEP increases under F. Throughfall reduction increased NEP at FL and VA due to a negative effect on R-H and no effect on NPP. Mean annual NEP ranged from 1.63 +/- 0.59 MgC center dot ha(-1).yr(-1) in the control at OK to 8.18 +/- 0.82 MgC center dot ha(-1).yr(-1) under F + D at GA. These results suggest that fertilization will increase NEP under a wide range of climatic conditions including reduced precipitation, but either NPP or R-H could be the primary driver because F can increase stand growth, as well as suppress R-S and R-H. Moreover, D and F never significantly interacted for an annual C flux, potentially simplifying estimates of how fertilization and drought will affect C cycling in these ecosystems.
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| Files | Size | Format | View |
|---|---|---|---|
| 10_1016_j_foreco_2018_04_029.pdf | 953KB |  download |
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