Niche characteristics of Danish woody species as derived from coenoclines

Lawesson, Jonas E.; Oksanen, Jari

doi:10.1111/j.1654-1103.2002.tb02048.x

Cited by 78 publications

(54 citation statements)

References 65 publications

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“…The plots in Figure 4 show how the more abundant moss species were related plot-specific variations in DTW, can- The HOF modelled presence/absence response curves to the continuous variables log 10 DTW, slope, % canopy closure and forest litter depth followednon-linear trends ( Figure 5), with DP, HS, PC and PS displaying unimodal bell-shaped responses (HOF models IV and V). In contrast, SG and SF decreased monotonically (HOF models II and III) from wet to dry, as to be expected [47] [48]. The resulting best-fitted model parameters, optima and niche values are listed in Table 4, with R 2 values ranging from 0.16 to 0.99.…”

Section: Resultssupporting

confidence: 59%

Modeling and Mapping Forest Floor Distributions of Common Bryophytes Using a LiDAR-Derived Depth-to-Water Index

Goguen¹,

Arp²

2017

AJPS

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This article describes how the cartographic depth-to-water (DTW) index in combination with other variables can be used to quantify, model and map the distribution of common forest floor bryophytes, at 1 m resolution. This was done by way of a case study, using 12 terrain and climate representative locations across New Brunswick, Canada. The presence/absence by moss species was determined at each location along upland-to-wetland transects within >10-m spaced 1-m 2 forest floor plots. It was found that Bazzania trilobata, Dicranum polysetum, Polytrichum commune, Hylocomium splendens, and Pleurozium schreberi had greater probabilities of occurrence in welldrained forested areas, whereas Sphagnum fuscum and Sphagnum girgensohnii dominated in low-lying wet areas. The presence/absence of each species was quantified by way of logistic regression analyses, using DTW, slope, canopy closure, forest litter depth, ecosite type (8 classes), nutrient regime (4 classes, poor to rich); vegetation type (deciduous, coniferous, mixed, and shrubs), and macro-and micro-topography (upland, wetland; mounds, pits) as predictor variables. Among these, log 10 DTW and forest litter depth were the most consistent predictor variables, followed by mound versus pit. For the mapping purpose, only log 10 DTW and already mapped classifications for upland versus wetland and vegetation type were used to predict the probability of occurrences for the most frequent moss species, namely, D. polysetum, P. schreberi and Sphagnum spp. The overall accuracy for doing this ranged from 67% to 83%, with false positives and negatives amounting to 18% to 42%. The overall classification accuracy exceeded the probability by chance alone at 76.8%, with the significance level reached at 75.3%. The average level of probability by chance alone was 60.3%.

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Section: Resultssupporting

confidence: 59%

Modeling and Mapping Forest Floor Distributions of Common Bryophytes Using a LiDAR-Derived Depth-to-Water Index

Goguen¹,

Arp²

2017

AJPS

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“…T. cordata is considered a mesophilic species [19,22] with a good tolerance to dry soils. In a study of the characteristics of tree species niches in Denmark, Lawesson and Oksanen [23] observed that T. cordata could tolerate very wet soils as well as very dry ones. This outstanding tolerance can be explained by different factors.…”

Section: Water Supplymentioning

confidence: 99%

A Review of the Characteristics of Small-Leaved Lime (Tilia cordata Mill.) and Their Implications for Silviculture in a Changing Climate

Jaegere

Hein

Claessens

2016

Forests

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Tilia cordata Mill. is a minor European broadleaved species with a wide but scattered distribution. Given its scarcity and low value in the wood market, it has received little attention from researchers and forest managers. This review summarizes the main aspects of T. cordata ecology and growth. Its main limiting factor is its need for warm summer temperatures to ensure successful seed production. It has a height growth pattern relatively similar to that of Acer pseudoplatanus L., with a slight delay in the early stages. Yield tables report great productivity, especially in eastern Europe. T. cordata used to be a major species in Europe, in contrast to its present distribution, but it is very likely to receive renewed interest in the future. Indeed, with the potential change of competition between species in some regions and the need for important diversification in others, T. cordata may play an important role in forest adaptation to climate change, especially owing to its wide ecological tolerance and its numerous ecosystem services. It is necessary to increase our knowledge about its regeneration and its responses to environmental and silvicultural factors, to establish clear management recommendations.

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“…The establishment of unimodal response curves allows the definition of indicator values that are of interest to synthesize ecological information on species (ter Braak & Looman, 1986;Lawesson & Oksanen, 2002). Ecological optimum and amplitude are traditionally derived from computations (ter Braak & Gremmen, 1987;Odland et al ., 1995) and facilitate the comparison of reactions to ecological factors among species.…”

Section: Introductionmentioning

confidence: 99%

Ecological behaviour of herbaceous forest species along a pH gradient: a comparison between oceanic and semicontinental regions in northern France

Coudun

Gégout

2005

Global Ecology and Biogeography

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Aim On the basis of 2402 phytoecological relevés, with complete species lists, and real pH measurements resulting from chemical analyses of the top layer of forest soils, this paper compares quantitatively the ecological response of 46 herbaceous forest species along a pH gradient in two regions of northern France. LocationThe two regions investigated are oceanic north-western France (NW) and semicontinental north-eastern France (NE). MethodsFor each of the 46 species with more than 50 occurrences in both NW and NE regions, an ecological response curve was computed with simple logistic regression models, and two synthetic numerical values were derived: ecological optimum (OPT) and ecological amplitude (AMP). A comparison of the ecological behaviour of species present in both regions was performed in terms of shift in optimum and/or amplitude. ResultsAll 46 species did reveal a reaction to pH. Our main observation was the relative stability of the behaviour of most species with reference to pH conditions, which is consistent with results from some previous studies. Slight differences regarding the two synthetic parameters (OPT and AMP) were however observed between the NW and NE regions, probably due to a form of competitive release in neutral environments in the NW. Main conclusionsAmong the main possibilities that could explain a geographical shift in the ecological behaviour of herbaceous species, competitive effects are, we suggest, the most plausible explanation. In the light of former studies, it seems that further analyses of geographical shifts in the ecological behaviour of forest plant species over large areas are needed, such as for example over the European continent.Nomenclature Tutin et al . (2001).

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Niche characteristics of Danish woody species as derived from coenoclines

Cited by 78 publications

References 65 publications

Modeling and Mapping Forest Floor Distributions of Common Bryophytes Using a LiDAR-Derived Depth-to-Water Index

Modeling and Mapping Forest Floor Distributions of Common Bryophytes Using a LiDAR-Derived Depth-to-Water Index

A Review of the Characteristics of Small-Leaved Lime (Tilia cordata Mill.) and Their Implications for Silviculture in a Changing Climate

Ecological behaviour of herbaceous forest species along a pH gradient: a comparison between oceanic and semicontinental regions in northern France

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