Resource acquisition strategies facilitate <i>Gilbertiodendron dewevrei</i> monodominance in African lowland forests

Hall, Jefferson S.; Harris, David J.; Saltonstall, Kristin; Medjibe, Vincent; Ashton, Mark S.; Turner, Benjamín L.

doi:10.1111/1365-2745.13278

Cited by 24 publications

(41 citation statements)

References 80 publications

(271 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We know that there are 429 species of tree that reach 10 cm dbh on terra firma in the Sangha Trinational area. This list is derived from the cumulative results of botanical inventories which started in 1987 (Harris, 2002), forest ecology studies with herbarium specimens as vouchers (Hall et al., 2003; Hall et al., 2019; Medjibe et al., 2011; Ndolo Ebika et al., 2018; Thenkabail et al., 2003); taxonomic revisions (Hyam et al., 2012; Wellsow et al., 2019) and a tree identification manual (Harris & Wortley, 2008).…”

Section: Study Sitementioning

confidence: 99%

“…The second reason is the relative rarity of the largest trees in the forest compared to smaller trees. In a previous study in the lowland rainforest of the Central African Republic, all trees above 10 cm dbh were measured in forest plots covering 11 hectares (Hall et al., 2003; Hall et al., 2019). Out of the 4,560 trees surveyed, only 118 (2.6%) were greater than 80 cm in diameter.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Large trees in tropical rain forests require big plots

Harris

Ebika

Sanz

et al. 2021

Plants People Planet

Self Cite

View full text Add to dashboard Cite

Societal Impact Statement Globally, the conservation value of big trees is linked to biodiversity and carbon sequestration. We studied trees, greater than 80 cm in diameter, in a forest in the Republic of Congo. We found that more than 100 species reach this size and the most abundant species is Sapele (Entandrophragma cylindricum), which is exploited for global timber markets. More than 40% of the large tree species are used by local people for food. Our results show that big trees are important to local people in the Congo Basin in addition to being the focus of industrial logging and in many areas the basis for the formal economy. Summary The main aim of this paper is to establish standard techniques for surveying the biggest trees in tropical rain forests. One hundred and thirty hectares (13 plots of 10 ha) of unlogged mixed species terra firma forest in the Republic of Congo were surveyed for trees greater than 80 cm in diameter. More than 100 species of tree exceed 80 cm in diameter and one species, Entandrophragma cylindricum (Sapele or Sapelli), dominates this size class. Obtaining comparable data of big trees from different sites across the tropics is a priority. We propose a standardised plot size of 10 ha, replicated 10 times for each forest type at different study sites and a minimum trunk diameter of 70 cm at breast height or above buttresses.

show abstract

Section: Study Sitementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Large trees in tropical rain forests require big plots

Harris

Ebika

Sanz

et al. 2021

Plants People Planet

Self Cite

View full text Add to dashboard Cite

show abstract

“…We hypothesize that tropical forests dominated by a one or a few closely-related species, such as coastal mangrove forests dominated by Rhizophora spp. (Tomlinson, 1995) and monodominant tropical lowland forests dominated by species of Dipterocarpaceae in southeast Asia or species of Leguminosae (subfamily Caesalpinioideae) in Africa and the Neotropics (Torti et al, 2001; Hall et al, 2019) may be structured by foundation species (Ellison et al, 2005). Indeed, Gilbertiodendron dewevrei in the Ituri ForestGeo plot in the Democratic Republic of Congo (Makana et al, 2004 a , b ) has functional characteristics similar to Tsuga canadensis in northeastern US forests.…”

Section: Discussionmentioning

confidence: 99%

Foundation Species Across a Latitudinal Gradient in China

Qiao

Zhang

et al. 2020

Preprint

View full text Add to dashboard Cite

40Foundation species play important roles in structuring forest communities and 41 ecosystems. Foundation species are difficult to identify without long-term observa-42 tions or experiments and their foundational roles rarely are identified before they are 43 declining or threatened. We used new statistical criteria based on size-frequency dis-44 tributions, species diversity, and spatial codispersion among woody plants to identify 45 potential ("candidate") foundation species in 12 large forest dynamics plots spanning 46 26 degrees of latitude in China. We used these data to identify a suite of candidate 47 foundation species in Chinese forests; test the hypothesis that foundation woody plant 48 species are more frequent in the temperate zone than in the tropics; and compare these 49 results with comparable data from the Americas to suggest candidate foundation gen-50 era in Northern Hemisphere forests. We identified more candidate foundation species 51 in temperate plots than in subtropical or tropical plots, and this relationship was in-52 dependent of the latitudinal gradient in overall species richness. Two species of Acer, 53 the canopy tree Acer ukurunduense and the shrubby treelet Acer barbinerve were the 54 only two species that met both criteria in full to be considered as candidate founda-55 tion species. When we relaxed the diversity criteria, Acer, Tilia, and Juglans spp., 56 and Corlyus mandshurica were frequently identified as candidate foundation species. 57In tropical plots, the tree Mezzettiopsis creaghii and the shrubs or treelets Aporusa 58 yunnanensis and Ficus hispida had some characteristics associated with foundation 59 species. Species diversity of co-occurring woody species was negatively associated with 60 basal area of candidate foundation species more frequently at 5-and 10-m spatial grains 61 (scale) than at a 20-m grain. Conversely, Bray-Curtis dissimilarity was positively as-62 sociated with basal area of candidate foundation species more frequently at 5-m than 63 at 10-or 20-m grains. Our data support the hypothesis that foundation species should 64 be more common in temperate than in tropical or boreal forests, and suggest that in 65 the Northern Hemisphere that Acer be investigated further as a foundation tree genus. 66A foundation species is a single species (or a group of functionally similar taxa) that dom-70 inates an assemblage numerically and in overall size (e.g., mass or area occupied), determines 71 the diversity of associated taxa through non-trophic interactions, and modulates fluxes of 72 nutrients and energy at multiple control points in the ecosystem it defines (Ellison, 2019). 73Because foundation species are common and abundant, they generally receive less attention 74 from conservation biologists, conservation professionals, and natural-resource managers who 75 emphasize the study, management or protection of rare, threatened, or endangered species 76 (Gaston and Fuller, 2007, 2008). However, protecting foundation species before they decline 77 to non-func...

show abstract

“…We hypothesize that tropical forests dominated by one or a few closely related species, such as coastal mangrove forests dominated by Rhizophora spp. (Tomlinson 1995) and monodominant tropical lowland forests dominated by species of Dipterocarpaceae in southeast Asia or species of Leguminosae (subfamily Caesalpinioideae) in Africa and the Neotropics (Torti et al 2001, van der Velden et al 2014, Hall et al 2020) may be structured by foundation species (Ellison et al 2005). Indeed, Gilbertiodendron dewevrei in the Ituri ForestGEO plot in the Democratic Republic of Congo (Makana et al 2004a, 2004b) has functional characteristics similar to T. canadensis in northeastern U.S. forests.…”

Section: Discussionmentioning

confidence: 99%

Foundation species across a latitudinal gradient in China

Qiao

Zhang

Wang

et al. 2020

Ecology

View full text Add to dashboard Cite

Foundation species structure forest communities and ecosystems but are difficult to identify without long‐term observations or experiments. We used statistical criteria––outliers from size‐frequency distributions and scale‐dependent negative effects on alpha diversity and positive effects on beta diversity––to identify candidate foundation woody plant species in 12 large forest‐dynamics plots spanning 26 degrees of latitude in China. We used these data (1) to identify candidate foundation species in Chinese forests, (2) to test the hypothesis––based on observations of a midlatitude peak in functional trait diversity and high local species richness but few numerically dominant species in tropical forests––that foundation woody plant species are more frequent in temperate than tropical or boreal forests, and (3) to compare these results with data from the Americas to suggest candidate foundation genera in northern hemisphere forests. Using the most stringent criteria, only two species of Acer, the canopy tree Acer ukurunduense and the shrubby treelet Acer barbinerve, were identified in temperate plots as candidate foundation species. Using more relaxed criteria, we identified four times more candidate foundation species in temperate plots (including species of Acer, Pinus, Juglans, Padus, Tilia, Fraxinus, Prunus, Taxus, Ulmus, and Corlyus) than in (sub)tropical plots (the treelets or shrubs Aporosa yunnanensis, Ficus hispida, Brassaiopsis glomerulata, and Orophea laui). Species diversity of co‐occurring woody species was negatively associated with basal area of candidate foundation species more frequently at 5‐ and 10‐m spatial grains (scale) than at a 20‐m grain. Conversely, Bray‐Curtis dissimilarity was positively associated with basal area of candidate foundation species more frequently at 5‐m than at 10‐ or 20‐m grains. Both stringent and relaxed criteria supported the hypothesis that foundation species are more common in mid‐latitude temperate forests. Comparisons of candidate foundation species in Chinese and North American forests suggest that Acer be investigated further as a foundation tree genus.

show abstract

Resource acquisition strategies facilitate Gilbertiodendron dewevrei monodominance in African lowland forests

Cited by 24 publications

References 80 publications

Large trees in tropical rain forests require big plots

Large trees in tropical rain forests require big plots

Foundation Species Across a Latitudinal Gradient in China

Foundation species across a latitudinal gradient in China

Contact Info

Product

Resources

About