David Mercker, Ryan Blair, Don Tyler, Theresa Jain, Russell Graham, Donald Rockwood, Nicholas Koch, Jeremy Brawner, Omar Carrero, Kristofer Covey, Alex Barrett, Mark Ashton, Kristofer Covey, Angela Gupta, Julie Miedtke, Amy Mayer, Paul Scowcroft, Justin Yeh, Nathan Beane, James Rentch, Thomas Sensenig, Jingjing Liang, Michael Kane, Dehai Zhao, Bruce Borders, John Rheney, Bridget McNassar, Jake Kleinknecht, Anthony S. Davis, Michael Farrell, Stephanie Downs, Dave Apsley, Daniel Balser, Songlin Fei, Ningning Kong, Kim Steiner, Keith Moser, Erik Steiner, Emily Overton, Anthony S. Davis, Daniel Adamski, Nicklos Dudley, Clifford Morden, Dulal Borthakur, Matthew Aghai, Jeremy Pinto, Anthony S. Davis, James Guldin, Nancy Koerth, Lisa Ganio, Robert Progar, Matt Rinella, Kevin Ceder, Eric Turnblom, Douglas Cram, Terrell Baker, Elise Suronen, Beth Newingham, Leah Rathbun, Andrew Sanchez Meador, Jesse Kreye, Michael McClellan, Erik Berg, Barry Clinton, Jim Vose, Wayne Swank, Jeremy Pinto, R. Kasten Dumroese, Anthony S. Davis, John D. Marshall, Doug Piirto, Joshua Soderlund, Gary Roller, Jeremy Pinto, R. Kasten Dumroese, Anthony S. Davis, John D. Marshall, Ken Zielke, Harry Nelson, David Perez, Katherine Eisen
{"title":"Silviculture and Forest Ecology","authors":"David Mercker, Ryan Blair, Don Tyler, Theresa Jain, Russell Graham, Donald Rockwood, Nicholas Koch, Jeremy Brawner, Omar Carrero, Kristofer Covey, Alex Barrett, Mark Ashton, Kristofer Covey, Angela Gupta, Julie Miedtke, Amy Mayer, Paul Scowcroft, Justin Yeh, Nathan Beane, James Rentch, Thomas Sensenig, Jingjing Liang, Michael Kane, Dehai Zhao, Bruce Borders, John Rheney, Bridget McNassar, Jake Kleinknecht, Anthony S. Davis, Michael Farrell, Stephanie Downs, Dave Apsley, Daniel Balser, Songlin Fei, Ningning Kong, Kim Steiner, Keith Moser, Erik Steiner, Emily Overton, Anthony S. Davis, Daniel Adamski, Nicklos Dudley, Clifford Morden, Dulal Borthakur, Matthew Aghai, Jeremy Pinto, Anthony S. Davis, James Guldin, Nancy Koerth, Lisa Ganio, Robert Progar, Matt Rinella, Kevin Ceder, Eric Turnblom, Douglas Cram, Terrell Baker, Elise Suronen, Beth Newingham, Leah Rathbun, Andrew Sanchez Meador, Jesse Kreye, Michael McClellan, Erik Berg, Barry Clinton, Jim Vose, Wayne Swank, Jeremy Pinto, R. Kasten Dumroese, Anthony S. Davis, John D. Marshall, Doug Piirto, Joshua Soderlund, Gary Roller, Jeremy Pinto, R. Kasten Dumroese, Anthony S. Davis, John D. Marshall, Ken Zielke, Harry Nelson, David Perez, Katherine Eisen","doi":"10.1093/jof/109.8.491","DOIUrl":null,"url":null,"abstract":"2Over the past several decades, federal incentive programs have encouraged the restoration of bottomland forests throughout the West Gulf Coastal Plain (WGCP) and the Lower Mississippi Alluvial Valley (LMAV). Programs such as the Conservation Reserve (CRP) and Wetlands Reserve (WRP) Programs have been marginally successful (Stanturf et al. 2001). Foresters and contractors often follow conventional tree planting procedures that are well established for upland sites, but prove problematic in bottomlands. High water tables, soil drainage and compaction, overland flooding and diverse soil properties make species selection difficult. Slight changes in topography and soil structure often have a dramatic effect on survival and growth of planted oak seedlings (Hodges and Schweitzer 1979). This project documented the survival and growth of six-year old seedlings that were established on a bottomland site in 2004, located at the West Tennessee Research and Education Center, Jackson, Tennessee. The purpose was to determine how soil drainage as indicated by mottling (specifically, the point of 50 percent gray color throughout the soil profile) affects the survival and growth of bottomland oak species. The findings suggest that practitioners plant Nuttall, pin and overcup oaks in poorly drained soils. As the drainage improves, begin mixing in willow oak. In the best drained soils (if they exist), finish by including water, swamp chestnut, swamp white, Shumard, cherrybark and bur oaks. Potential species diversity should expand as the soil drainage improves.","PeriodicalId":15821,"journal":{"name":"Journal of Forestry","volume":"47 1","pages":""},"PeriodicalIF":1.8000,"publicationDate":"2024-04-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Forestry","FirstCategoryId":"97","ListUrlMain":"https://doi.org/10.1093/jof/109.8.491","RegionNum":3,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"FORESTRY","Score":null,"Total":0}
引用次数: 0
Abstract
2Over the past several decades, federal incentive programs have encouraged the restoration of bottomland forests throughout the West Gulf Coastal Plain (WGCP) and the Lower Mississippi Alluvial Valley (LMAV). Programs such as the Conservation Reserve (CRP) and Wetlands Reserve (WRP) Programs have been marginally successful (Stanturf et al. 2001). Foresters and contractors often follow conventional tree planting procedures that are well established for upland sites, but prove problematic in bottomlands. High water tables, soil drainage and compaction, overland flooding and diverse soil properties make species selection difficult. Slight changes in topography and soil structure often have a dramatic effect on survival and growth of planted oak seedlings (Hodges and Schweitzer 1979). This project documented the survival and growth of six-year old seedlings that were established on a bottomland site in 2004, located at the West Tennessee Research and Education Center, Jackson, Tennessee. The purpose was to determine how soil drainage as indicated by mottling (specifically, the point of 50 percent gray color throughout the soil profile) affects the survival and growth of bottomland oak species. The findings suggest that practitioners plant Nuttall, pin and overcup oaks in poorly drained soils. As the drainage improves, begin mixing in willow oak. In the best drained soils (if they exist), finish by including water, swamp chestnut, swamp white, Shumard, cherrybark and bur oaks. Potential species diversity should expand as the soil drainage improves.
期刊介绍:
The Journal of Forestry is the most widely circulated scholarly forestry journal in the world. In print since 1902, the mission of the Journal of Forestry is to advance the profession of forestry by keeping forest management professionals informed about significant developments and ideas in the many facets of forestry. The Journal is published bimonthly: January, March, May, July, September, and November.