Importance of residual trees to birds in regenerating pine plantations

doi:10.3832/ifor0616-005

Importance of residual trees to birds in regenerating pine plantations

BB Hanberry⁽¹⁾ , P Hanberry⁽¹⁾, S Demarais⁽²⁾, JC Jones⁽²⁾

iForest - Biogeosciences and Forestry, Volume 5, Issue 3, Pages 108-112 (2012)
doi: https://doi.org/10.3832/ifor0616-005
Published: Jun 05, 2012 - Copyright © 2012 SISEF

Research Articles

PDF Version

Full Text

Citation

Pine plantation establishment methods can alter vegetation composition and structure, thus affecting habitat important characteristics for declining early successional bird species. We evaluated eight vegetation characteristics, which varied due to a range of pine plantation establishment methods, to identify vegetation most closely associated with spring bird abundance in the Lower Coastal Plain of southern Mississippi, USA. Presence of residual trees and snags was positively related to relative abundance of 10 of 14 common species present in regenerating stands. Cover of woody vegetation was positively related to relative abundance of 4 species and negatively related to relative abundance of 2 species. For 5 species, increasing pine tree cover had a negative relationship with relative abundance. Residual trees and snags contributed to avian abundance and richness in regenerating pine plantations. Integration of habitat elements, such as residual trees that influence abundance of birds and other wildlife, with intensive pine plantation establishment can aid managers to attain wildlife conservation in intensively managed stands.

Keywords

Forest Management, Establishment, Habitat, Site Preparation, Snags

Authors’ address

(1)

School of Natural Resources, 203 Natural Resources Building, University of Missouri, Columbia, MO 65211 USA

(2)

Department of Wildlife and Fisheries, Box 9690, Mississippi State University, Mississippi State, MS 39762, USA

Corresponding author

BB Hanberry
hanberryb@missouri.edu

Citation

Hanberry BB, Hanberry P, Demarais S, Jones JC (2012). Importance of residual trees to birds in regenerating pine plantations. iForest 5: 108-112. - doi: 10.3832/ifor0616-005

Academic Editor

Marco Borghetti

Paper history

Received: Feb 01, 2012
Accepted: May 05, 2012

First online: Jun 05, 2012
Publication Date: Jun 29, 2012
Publication Time: 1.03 months

Open Access

This article is distributed under the terms of the Creative Commons Attribution-Non Commercial 4.0 International (https://creativecommons.org/licenses/by-nc/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

Breakdown by View Type

(Waiting for server response...)

Article Usage

Total Article Views: 31497
(from publication date up to now)

Breakdown by View Type
HTML Page Views: 22071
Abstract Page Views: 1236
PDF Downloads: 6822
Citation/Reference Downloads: 65
XML Downloads: 1303

Web Metrics
Days since publication: 4337
Overall contacts: 31497
Avg. contacts per week: 50.84

Article Citations

Article citations are based on data periodically collected from the Clarivate Web of Science web site
(last update: Nov 2020)

Total number of cites (since 2012): 12
Average cites per year: 1.33

(no Plumx Metrics available for this paper)

Publication Metrics

by Dimensions ^©

Articles citing this article

List of the papers citing this article based on CrossRef Cited-by.

(1)

Battin J (2004)
When good animals love bad habitats: ecological traps and the conservation of animal populations. Conservation Biology 18: 1482-1491.
CrossRef | Gscholar

(2)

Bock CE, Jones ZF (2004)
Avian habitat evaluation: should counting birds count? Frontiers in Ecology and Environment 2: 403-410.
CrossRef | Gscholar

(3)

Caine LA, Marion WR (1991)
Artificial addition of snags and nest boxes to slash pine plantations. Journal of Field Ornithology 62: 97-106.
Online | Gscholar

(4)

Canfield RH (1941)
Application of the line interception method in sampling range vegetation. Journal of Forestry 39 (4): 388-394.
Gscholar

(5)

Cavitt JF, Haas CA (2000)
Brown Thrasher (Toxostoma rufum). In: “The birds of North America: No. 557” (Poole A, Gill F eds). The American Ornithologists’ Union, Washington, DC, USA.
Gscholar

(6)

Conner RN (1978)
Snag management for cavity nesting birds. In: Proceedings of the workshop on “Management of Southern Forests for Nongame Birds” (DeGraaf RM ed). Gen. Tech. Rep. SE-14, USDA Forest Service, Asheville, NC, USA, pp. 120-128.
Gscholar

(7)

Davis JW (1983)
Snags are for wildlife. Proceedings of the “Symposium on Snag Habitat Management” (Davis JW, Goodwin GA, Okenfels RA technical coordinators). Gen. Tech. Rep. RM-99, Fort Collins, CO, USDA Forest Service, pp. 4-8.
Gscholar

(8)

Dickson JG, Conner RN, Williamson JH (1983)
Snag retention increases bird use of a clear-cut. Journal of Wildlife Management 47: 799-804.
CrossRef | Gscholar

(9)

Dwernychuk LW, Boag DA (1972)
Ducks nesting in association with gulls - an ecological trap? Canadian Journal of Zoology 50: 559-563.
CrossRef | Gscholar

(10)

Fox TR, Jokela EJ, Allen HL (2007)
The development of pine plantation silviculture in the southern United States. Journal of Forestry 105 (7): 337-47.
Gscholar

(11)

Greenlaw JS (1996)
Eastern Towhee (Pipilo erythrophthalmus). In: “The birds of North America: No. 262” (Poole A, Gill F eds). The American Ornithologists’ Union, Washington, DC, USA.
Gscholar

(12)

Gutzwiller KJ, Riffell SK (2007)
Using statistical models to study temporal dynamics of animal-landscape relations. In: “Temporal dimensions of landscape ecology: wildlife responses to variable resources” (Bissonette JA, Storc I eds). Springer, New York, USA, pp. 93-118.
Gscholar

(13)

Hanberry BB (2007)
Birds and small mammals, intensively established pine plantations, and landscape metrics of the Coastal Plain. PhD Thesis, Department of Wildlife and Fisheries, Mississippi State University, Baton Rouge, USA, pp. 140.
Gscholar

(14)

Haynes RW (2002)
Forest management in the 21^st century: changing numbers, changing context. Journal of Forestry 100 (2): 38-43.
Online | Gscholar

(15)

Holmes RT, Schultz JC (1988)
Food availability for forest birds: effects of prey distribution and abundance on bird foraging. Canadian Journal of Zoology 66: 720-728.
CrossRef | Gscholar

(16)

Hopp SL, Kirby A, Boone CA (1995)
White-eyed Vireo (Vireo griseus). In: “The birds of North America: No. 168” (Poole A, Gill F eds). The American Ornithologists’ Union, Washington, DC, USA.
Gscholar

(17)

Johnson AS, Landers JL (1982)
Habitat relationships of summer resident birds in slash pine flatwoods. Journal of Wildlife Management 46: 416-428.
CrossRef | Gscholar

(18)

Jones PD, Edwards SL, Demarais S, Ezell AW (2009)
Vegetation community responses to different establishment regimes in loblolly pine (Pinus taeda) plantations in southern MS, USA. Forest Ecology and Management 257: 553-560.
CrossRef | Gscholar

(19)

Jones PD, Burger LW, Demarais S (2010a)
Habitat value of intensively established pine plantations for northern bobwhite. Journal of Wildlife Management 74: 449-458.
CrossRef | Gscholar

(20)

Jones PD, Hanberry BB, Demarais S (2010b)
Managing the southern pine forest-retained wetland interface for wildlife diversity: research priorities. Wetlands 30: 381-391.
CrossRef | Gscholar

(21)

Lautenschlager RA (1993)
Response of wildlife to forest herbicide applications in northern coniferous ecosystems. Canadian Journal of Forest Research 23: 2286-2299.
CrossRef | Gscholar

(22)

Lohr SM, Gauthreaux SA, Kilgo JC (2002)
Importance of coarse woody debris to avian communities in loblolly pine forests. Conservation Biology 16: 767-777.
CrossRef | Gscholar

(23)

Martin TE (1988)
Habitat and area effects on forest bird assemblages: is nest predation an influence? Ecology 69: 74-84.
CrossRef | Gscholar

(24)

Martin TE (1995)
Avian life history evolution in relation to nest sites, nest predation, and food. Ecological Monographs 65: 101-127.
CrossRef | Gscholar

(25)

Nagy LR, Holmes RT (2004)
Factors influencing fecundity in migratory songbirds: is nest predation the most important? Journal of Avian Biology 35: 487-491.
CrossRef | Gscholar

(26)

Orians GH, Wittenberger JF (1991)
Spatial and temporal scales in habitat selection. American Naturalist 137: S29-S49.
CrossRef | Gscholar

(27)

Panjabi AO, Dunn EH, Blancher PJ, Hunter WC, Altman B, Bart J, Beardmore CJ, Berlanga H, Butcher GS, Davis SK, Demarest DW, Dettmers R, Easton W, Gomez de Silva Garza H, Iñigo-Elias EE, Pashley DN, Ralph CJ, Rich TD, Rosenberg KV, Rustay CM, Ruth JM, Wendt JS, Will TC (2005)
The partners in flight handbook on species assessment. Version 2005. Partners in Flight Technical Series No. 3, Rocky Mountain Bird Observatory website.
Online | Gscholar

(28)

Pulliam HR (1988)
Sources, sinks, and population regulation. American Naturalist 132: 652-661.
CrossRef | Gscholar

(29)

Robertson BA, Hutto RL (2006)
A framework for understanding ecological traps and an evaluation of existing evidence. Ecology 87: 1075-1085.
CrossRef | Gscholar

(30)

Robinson SK, Holmes RT (1984)
Effects of plant species and foliage structure on the foraging behavior of forest birds. The Auk 101: 672-684.
Online | Gscholar

(31)

Santillo DJ, Brown PW, Leslie DM (1989)
Response of songbirds to glyphosate-induced habitat changes on clearcuts. Journal of Wildlife Management 53: 64-71.
CrossRef | Gscholar

(32)

Steele BB (1993)
Selection of foraging and nesting sites by black-throated Blue warblers: their relative influence on habitat choice. Condor 95: 568-579.
CrossRef | Gscholar

(33)

Van Horne B (1983)
Density as a misleading indicator of habitat quality. Journal of Wildlife Management 47: 893-901.
CrossRef | Gscholar

(34)

Verner J (1985)
Assessment of counting techniques. In: “Current Ornithology: Volume 2” (Johnston RF ed). Plenum Press, New York, USA, pp. 247-302.
Gscholar

(35)

Weldon AJ, Haddad NM (2005)
The effects of patch shape on Indigo Buntings: evidence for an ecological trap. Ecology 86: 1422-1431.
CrossRef | Gscholar

(36)

Wiens JA (1981)
Scale problems in avian censusing. In: “Studies in Avian Biology 6” (Ralph CJ, Scott, JM eds). Cooper Ornithological Society, Lawrence, Kansas, USA, pp. 513-521.
Gscholar

(37)

Wiens JA, Rotenberry JT, Van Horne B (1986)
A lesson in the limitations of field experiments: shrubsteppe birds and habitat alteration. Ecology 67: 365-376.
CrossRef | Gscholar

iForest - Biogeosciences and Forestry

Contents

Search

Journal Info

Journal Subjects and Fields

For Authors

For Reviewers

For Readers

SISEF Publishing

Search iForest Contents