Herbivorous Insect Response to Group Selection Cutting in a Southeastern Bottomland Hardwood Forest

Ulyshen, Michael D.; Hanula, James L.; Horn, Scott; Kilgo, John C.; Moorman, Christopher E.

doi:10.1603/0046-225x-34.2.395

Cited by 13 publications

(8 citation statements)

References 37 publications

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“…Similar results have been obtained from studies of insect communities on Quercus alba sampled across a large chronosequence (Forkner et al, 2006;Jeffrics et al, 2006) and insect communities occurring in restored deciduous forests (Holl, 1996;Goßner et al, 2008). Species richness of forest insects appears to recover from a disturbance such as timber harvest relatively quickly (<10 years; see Summerville and Crist, 2002;Ulyshen et al, 2005), while community composition tends to bear a lasting imprint of forest management (see also Holl, 1996;. Importantly, the assumption that forest stands that have been unlogged for long time periods are ''control'' sites for comparisons to recently managed stands (e.g., Summerville and Crist, 2002) appears tenuous.…”

Section: Discussionsupporting

confidence: 72%

The legacy of timber harvest: Do patterns of species dominance suggest recovery of lepidopteran communities in managed hardwood stands?

Summerville

Courard‐Hauri

Dupont

2009

Forest Ecology and Management

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Section: Discussionsupporting

confidence: 72%

The legacy of timber harvest: Do patterns of species dominance suggest recovery of lepidopteran communities in managed hardwood stands?

Summerville

Courard‐Hauri

Dupont

2009

Forest Ecology and Management

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“…Second, the maximum area of the harvest gaps was small, so that even the largest gaps were still influenced by the surrounding stand. However, an experiment in a bottomland hardwood forest in South Carolina that created larger and a wider range of harvest gap sizes (0.13, 0.26, and 0.50 ha) revealed no difference in the abundance of insect herbivores (Ulyshen et al 2005) or carabid predators (Ulyshen et al 2006). Third, the living permanent reserve trees that were distributed throughout the harvest gaps (6-21% of starting stand basal area) in this study may have moderated the influence of the canopy openings.…”

Section: Harvest Gapsmentioning

confidence: 94%

Influence of harvest gaps and coarse woody material on click beetles (Coleoptera: Elateridae) in Maine’s Acadian forest

2009

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In order to maintain biodiversity in forests, it has been recommended that harvests be designed after patterns of natural disturbance. Using a long-term study that includes harvest treatments designed to emulate tree-fall gap disturbances in Maine's Acadian forest, we examined how the species richness, abundance, diversity, and assemblage similarity of click beetles inhabiting coarse woody material (CWM) were affected by gap harvesting and CWM characteristics (diameter, degree of decay, and type of wood). There were few differences in beetle assemblages between 0.07 and 0.12 ha harvest gap treatments. Four of the most common species had higher abundances under a closed forest canopy than within harvest gaps. Species richness and total abundance were higher in CWM that had larger diameters and were more decayed. Species assemblages also differed with the degree of wood decomposition. Diversity was higher in CWM from softwood trees than hardwood trees. Results from this study suggest that small (\0.2 ha) harvest gaps with living trees retained throughout the gap can maintain click beetle assemblages similar to that of an unharvested forest. Forest managers also need to address the temporal continuity of CWM, including different types of wood (hardwood and softwood), a range of decay conditions, and a range of diameter classes, especially larger diameters ([35 cm).

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“…Bird abundance did not differ among gaps sizes or years (Bowen et al 2007). Although bird and arthropod abundance varied among sampling stations (Ulyshen et al 2004, Ulyshen et al 2005, Bowen et al 2007), stations were sufficiently close that birds may have consumed a prey item at one location (gap, edge, or forest) and then been captured at another location before the item passed from the crop. Therefore, data were averaged between years, among gap sizes, and among sampling locations (gap, edge, and forest).…”

Section: Methodsmentioning

confidence: 99%

“…Natural gaps (Willson et al 1982, Martin and Karr 1986) and group‐selection harvest gaps (Kilgo et al 1999, Moorman and Guynn 2001) contain greater numbers of birds than surrounding forest. Arthropod populations are also affected by forest‐canopy gaps and earlier stages of gap succession may support greater arthropod abundance than older forest‐canopy gaps (Ulyshen et al 2004, 2005, Ulyshen 2005). Flying arthropods may be more abundant in gap habitats than surrounding forest, whereas other groups, such as ground‐dwelling arthropods, are less abundant in gap habitat (Greenberg and Forrest 2003, Ulyshen 2005).…”

mentioning

confidence: 99%

Seasonal diets of insectivorous birds using canopy gaps in a bottomland forest

Moorman

Bowen

Kilgo

et al. 2007

J Field Ornithology

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Little is known about how insectivorous bird diets are influenced by arthropod availability and about how these relationships vary seasonally. We captured birds in forest-canopy gaps and adjacent mature forest during 2001 and 2002 at the Savannah River Site in Barnwell County, South Carolina, and flushed their crops to gather information about arthropods eaten during four periods: spring migration, breeding, postbreeding, and fall migration. Arthropod availability for foliage-and ground-gleaning birds was examined by leaf clipping and pitfall trapping. Coleopterans and Hemipterans were used by foliage-and ground-gleaners more than expected during all periods, whereas arthropods in the orders Araneae and Hymenoptera were used as, or less than, expected based on availability during all periods. Ground-gleaning birds used Homopterans and Lepidopterans in proportions higher than availability during all periods. Arthropod use by birds was consistent from spring through fall migration, with no apparent seasonal shift in diet. Based on concurrent studies, heavily used orders of arthropods were equally abundant or slightly less abundant in canopy gaps than in the surrounding mature forest, but bird species were most frequently detected in gaps. Such results suggest that preferential feeding on arthropods by foliage-gleaning birds in gap habitats reduced arthropod densities or, alternatively, that bird use of gap and forest habitat was not determined by food resources. The abundance of arthropods across the stand may have allowed birds to remain in the densely vegetated gaps where thick cover provides protection from predators. SINOPSIS. Dieta estacional de aves insectivoras usando huecos del docel en bosques de maderas durasSe conoce poco de como la dieta de insectívoros está influenciada por la disponibilidad de artrópodos y de como estas interacciones varían estacionalmente. Capturamos aves en huecos o aberturas del docel de un bosque, adyacente a un bosque maduro durante el 2001 y el 2002 en Savannah River Site, Condado Garnwell, Carolina del Sur. A las aves le lavamos el buche para obtener información sobre los artrópodos utilizados como alimento durante la migración primaveral, durante laépoca reproductiva, post-reproductiva y durante la migración otoñal. Para determinar la disponibilidad de artrópodos en el follaje y en el suelo, usamos la técnica de cortar hojas con artrópodos y la de trampas de envases en el suelo. Los coleópteros y los hemípteros fueron utilizados como fuente de alimento, más de lo esperado tanto por aves que se alimentaron en el follaje como en los suelos, durante todos los periodos. Por su parte, los arácnidos y los himenópteros, fueron utilizados menos de lo esperado, basándose en la disponibilidad de estos durante todos los periodos de estudio. Las aves que se alimentaron en los suelos utilizaron homópteros y lepidópteros en mayor proporción que lo esperado, dada su disponibilidad, durante todos los periodos. Los artrópodos utilizados por las aves fueron consistentes desde la primavera hasta...

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Herbivorous Insect Response to Group Selection Cutting in a Southeastern Bottomland Hardwood Forest

Cited by 13 publications

References 37 publications

The legacy of timber harvest: Do patterns of species dominance suggest recovery of lepidopteran communities in managed hardwood stands?

The legacy of timber harvest: Do patterns of species dominance suggest recovery of lepidopteran communities in managed hardwood stands?

Influence of harvest gaps and coarse woody material on click beetles (Coleoptera: Elateridae) in Maine’s Acadian forest

Seasonal diets of insectivorous birds using canopy gaps in a bottomland forest

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