Age‐related Crown Thinning in Tropical Forest Trees

Quinn, Eadaoin Maria Ines; Thomas, Sean C.

doi:10.1111/btp.12218

Cited by 4 publications

(3 citation statements)

References 82 publications

(140 reference statements)

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“…This can be understood as a result of the initial influx and establishment of fast growing (in wet forest typically low-wood-density) early successional pioneer species, with the forest becoming more efficient at capturing light as the more shade-tolerant, later-successional species also become established. The decline likely results from the reduced efficiency (per unit area) of light interception and photosynthesis of larger (versus smaller) trees (Yoder et al 1994;Niinemets et al 2005;Nock et al 2008;Drake et al 2011;Quinn and Thomas 2015) and the proportion of energy invested in woody growth (Kaufmann and Ryan 1986;Mencuccini et al 2005;Thomas 2010).…”

Section: Disturbance Difficulties: How Histories Influence Stand Propmentioning

confidence: 99%

Interpreting forest diversity-productivity relationships: volume values, disturbance histories and alternative inferences

Sheil

Bongers

2020

For. Ecosyst.

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Understanding the relationship between stand-level tree diversity and productivity has the potential to inform the science and management of forests. History shows that plant diversity-productivity relationships are challenging to interpret-and this remains true for the study of forests using non-experimental field data. Here we highlight pitfalls regarding the analyses and interpretation of such studies. We examine three themes: 1) the nature and measurement of ecological productivity and related values; 2) the role of stand history and disturbance in explaining forest characteristics; and 3) the interpretation of any relationship. We show that volume production and true productivity are distinct, and neither is a demonstrated proxy for economic values. Many stand characteristics, including diversity, volume growth and productivity, vary intrinsically with succession and stand history. We should be characterising these relationships rather than ignoring or eliminating them. Failure to do so may lead to misleading conclusions. To illustrate, we examine the study which prompted our concerns -Liang et al. (Science 354:aaf8957, 2016)-which developed a sophisticated global analysis to infer a worldwide positive effect of biodiversity (tree species richness) on "forest productivity" (stand level wood volume production). Existing data should be able to address many of our concerns. Critical evaluations will improve understanding.

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Section: Disturbance Difficulties: How Histories Influence Stand Propmentioning

confidence: 99%

Interpreting forest diversity-productivity relationships: volume values, disturbance histories and alternative inferences

Sheil

Bongers

2020

For. Ecosyst.

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“…Informal perceptions of tree vigour indicate that the crowns on the largest oldest trees are often open and patchy with dieback long before tree death. Formal observations indicate declining foliar efficiency, photosynthetic rates and light interception (Yoder et al 1994;Niinemets, Sparrow & Cescatti 2005;Nock, Caspersen & Thomas 2008;Drake et al 2011;Quinn & Thomas 2015), and the proportion of intercepted energy invested in stem growth declines with size (Kaufmann & Ryan 1986;Mencuccini et al 2005;Thomas 2010).…”

Section: G R O W T H I N L a R G E S T E M S : B A C K G R O U N Dmentioning

confidence: 99%

“…; Niinemets, Sparrow & Cescatti ; Nock, Caspersen & Thomas ; Drake et al . ; Quinn & Thomas ), and the proportion of intercepted energy invested in stem growth declines with size (Kaufmann & Ryan ; Mencuccini et al . ; Thomas ).…”

Section: Introductionmentioning

confidence: 99%

Does biomass growth increase in the largest trees? Flaws, fallacies and alternative analyses

et al. 2016

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Summary1. The long-standing view that biomass growth in trees typically follows a rise-and-fall unimodal pattern has been challenged by studies concluding that biomass growth increases with size even among the largest stems in both closed forests and in open competition-free environments. We highlight challenges and pitfalls that influence such interpretations. 2. The ability to observe and calibrate biomass change in large stems requires adequate data regarding these specific stems. 3. Data checking and control procedures can bias estimates of biomass growth and generate false increases with stem size. 4. It is important to distinguish aggregate and individual-level trends: a failure to do so results in flawed interpretations. 5. Our assessment of biomass growth in 706 tropical forest stems indicates that individual biomass growth patterns often plateau for extended periods, with no significant difference in the number of stems indicating positive and negative trends in all but one of the 14 species. Nonetheless, when comparing aggregate growth during the most recent five years, 13 out of our 14 species indicate that biomass growth increases with size even among the largest sizes. Thus, individual and aggregate patterns of biomass growth with size are distinct. 6. Claims concerning general biomass growth patterns for large trees remain unconvincing. We suggest how future studies can improve our knowledge of growth patterns in and among large trees.

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Insects and Forest Succession

Thomas

2023

Forest Entomology and Pathology

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There is a long-standing, even ancient, belief in Western thought that forests, particularly unmanaged forests relatively free from obvious human impacts, are never-changing; this is the connotation of the German word “urwald” or “original forest” that influenced early thinking on forests from the origins of the emerging scientific disciplines of forestry and ecology in the 1800s. However, all forests, including extant ancient forests, are in fact in a state of flux.

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Age‐related Crown Thinning in Tropical Forest Trees

Cited by 4 publications

References 82 publications

Interpreting forest diversity-productivity relationships: volume values, disturbance histories and alternative inferences

Interpreting forest diversity-productivity relationships: volume values, disturbance histories and alternative inferences

Does biomass growth increase in the largest trees? Flaws, fallacies and alternative analyses

Insects and Forest Succession

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