Radial Growth Response of Black Spruce Stands Ten Years after Experimental Shelterwoods and Seed-Tree Cuttings in Boreal Forest

Girona, Miguel Montoro; Morin, Hubert; Lussier, Jean-Martin; Walsh, Denis

doi:10.3390/f7100240

Cited by 79 publications

(74 citation statements)

References 59 publications

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“…However, public agencies and non-governmental organizations recognise that the production of merchantable timber may also provide multiple benefits associated with the intensification of land use, as in farming within SPS. Despite the good model fits to our data, we speculate that these models could get more resolution with dendroecological data using individual tree models based in other studies [10,15]. We recommend using more variables in the future that could help to better understand tree growth in response to competition or spatial position [10].…”

Section: Teak Production In Spsmentioning

confidence: 77%

“…Despite the good model fits to our data, we speculate that these models could get more resolution with dendroecological data using individual tree models based in other studies [10,15]. We recommend using more variables in the future that could help to better understand tree growth in response to competition or spatial position [10]. -H. generated some models and reviewed drafts of the paper.…”

Section: Teak Production In Spsmentioning

confidence: 87%

“…However, height growth is sensitive to incidents in the history of tree stands, such as origin (e.g., sprout or seed), initial suppression, changes in density, and interferences in the normal growth of the stand, e.g., animal, insect, frost damage, cutting, fire, and grazing. Moreover, the SI determination on the basis of height growth predicates nothing about these incidents [9,10].…”

Section: Introductionmentioning

confidence: 99%

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Growth and Yield Models for Teak Planted as Living Fences in Coastal Ecuador

Cañadas-López

Andrade-Candell

Domínguez-A

et al. 2018

Forests

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Teak plantations cover a total area of about 4.35 million ha worldwide. The species is currently being planted in silvopastoral systems in the coastal lowlands of Ecuador. However, there are no growth and yield models for teak grown in silvopastoral systems, especially as living fences, in this region. The aim of the present study was to develop volume and yield models for teak grown as living fences in silvopastoral systems. For teak planted as living fences, the biological rotation age was estimated to vary between 15 and 26 years. The final yield in the silvopastoral system varied from 49 m 3 ha −1 at 26 years in the least productive sites to 225 m 3 ha −1 at 15 years in the most productive sites in the study area. The mean annual yield for the highest quality site was 15.3 m 3 ha −1 year −1 at age 15 years, for a density of 160 trees ha −1 . For a base age of 10 years, height-based site indexes of nine to 23 m were established. The growth and yield model obtained may be useful to define the biological (optimal) rotation age and estimate the productivity of teak living fences in the coastal lowlands of Ecuador.

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Section: Teak Production In Spsmentioning

confidence: 77%

Section: Teak Production In Spsmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

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Growth and Yield Models for Teak Planted as Living Fences in Coastal Ecuador

Cañadas-López

Andrade-Candell

Domínguez-A

et al. 2018

Forests

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“…Lake Simoncouche (48.23°N, 71.25°W, mean depth 2.2 m, maximum depth 8 m, surface area 0.8 km 2 , see bathymetric map in Figure S1) is a mesotrophic boreal lake that is surrounded by a dense boreal forest, with its drainage basin dominated by Abies balsamea (Pinaceae), Picea mariana (Pinaceae) and Betula papyrifera (Betulaceae) populations (Montoro Girona et al ., ). Mean total dissolved phosphorous and nitrogen concentrations are, respectively, 8.2 ± 3.1 μg P L −1 and 0.3 ± 0.3 mg N L −1 , Secchi depth is 3.3 ± 0.3 m, conductivity 115 ± 86 μS cm −1 , pH 6.9 ± 0.6, DOC 5.3 ± 0.8 mg C L −1 and POC 1.1 ± 0.4 mg L −1 .…”

Section: Methodsmentioning

confidence: 97%

Zooplankton allochthony is spatially heterogeneous in a boreal lake

2016

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Summary The proportion of consumer biomass from terrestrial origin (i.e. allochthony) has been shown to vary greatly among lakes and also seasonally, but has been assumed to be spatially homogeneous within a lake. Given that the distribution of different organic carbon (C) sources tends to be spatially patchy in most lakes, this assumption may not be warranted. We tested this hypothesis using a spatially intensive sampling designed to capture the in‐lake heterogeneity in terrestrial inputs, phytoplankton, benthic algae and a dominant aquatic macrophyte (Brasenia schreberi: Cabombaceae) in a medium‐sized boreal lake, and used a dual‐isotope Bayesian mixing approach (δ13C, δ2H) to establish the degree of allochthony of the dominant copepod Leptodiaptomus minutus (Diaptomididae) across these sites. Samples were collected in spring when tributaries had high flow rates and aquatic primary producers (phytoplankton, macrophytes) had rapid growth rates, and in mid‐summer when tributary flows were at the lowest. There was substantial spatial variability in the stable‐isotope composition of the copepod and consequently in its levels of allochthony in both seasons. Allochthony in L. minutus varied from 34 to 50% in spring and from 45 to 65% in summer, and this range was linked to the spatial variability in the main sources of organic C (terrestrial inputs via tributaries, B. schreberi and phytoplankton). Allochthony in L. minutus was lowest in areas dominated by macrophytes, and further influenced by the distribution of tributary‐derived terrestrial C across the lake. Macrophyte and phytoplankton carbon contributed, respectively, up to 28 and 38% during growing season (spring) to the diet of the L. minutus, while benthic algae contribution was negligible. Our results clearly show that the reliance of zooplankton on terrestrial C may be spatially heterogeneous even in a relatively small lake and, in particular, that macrophytes, whose distribution is typically patchier than that of phytoplankton, may play a major role in shaping the spatial patterns of zooplankton allochthony in lakes.

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“…Reconstruction of outbreaks would also provide a longer-term vision of insect dynamics and interactions with other natural factors over time (e.g., wildfire versus insect outbreaks versus climate). Furthermore, sustainable forestry management aims to ensure that harvest methods simulate patterns of natural disturbance and thus minimize differences between managed and natural forests (Kuuluvainen, 2002;Gauthier et al, 2009;Montoro Girona et al, 2016). Understanding the pattern of insect outbreaks will permit mirroring silvicultural practices to the natural severity and frequency of insect outbreaks (Hof et al, 2017).…”

mentioning

confidence: 99%

A Secret Hidden in the Sediments: Lepidoptera Scales

2018

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Natural disturbance is one of the major topics in forest ecology. However, most paleoecological studies have only considered the influence of wildfire as an agent of disturbance, with fire history based primarily on the use of charcoal as a proxy for fire events. The frequency and intensity of insect outbreaks and their effect on the forest landscape have been neglected due to the absence of an effective proxy tool. Finding indicators able to provide insight into the impacts of past insect outbreaks is therefore essential. Fossil moth (Lepidoptera) scales offer a new approach for interpreting past insect-related disturbances and assessing the interactions between climate, fire and insect outbreaks. Paleoindicators must respond to three main criteria: (1) be in high abundance, (2) allow for easy identification and (3) remain well-preserved in sediment records. We demonstrate that wing scales are abundant in the boreal forest during insect outbreak periods. We also show that due to their chitin composition, these scales remain well-preserved throughout a 10,000-year sediment record. Furthermore, they are relatively easy to identify after being recovered from lake sediments. Therefore, we introduce the needs, potential and applications of this paleoindicator in forest ecology, and the main directions for the future research. This new approach offers an important scientific advance in ecology through a much improved, higher resolution reconstruction of an important natural disturbance: insect outbreaks.

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Radial Growth Response of Black Spruce Stands Ten Years after Experimental Shelterwoods and Seed-Tree Cuttings in Boreal Forest

Cited by 79 publications

References 59 publications

Growth and Yield Models for Teak Planted as Living Fences in Coastal Ecuador

Growth and Yield Models for Teak Planted as Living Fences in Coastal Ecuador

Zooplankton allochthony is spatially heterogeneous in a boreal lake

A Secret Hidden in the Sediments: Lepidoptera Scales

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