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Pan‐tropical prediction of forest structure from the largest trees

Bastin, Jean‐François ; Rutishauser, Ervan ; Kellner, James R. ; [weitere]

Wiley ; 2018

In: Global Ecology and Biogeography Vol. 27, No. 11 ( 2018-11), p. 1366-1383

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In: Global Ecology and Biogeography, Wiley, Vol. 27, No. 11 ( 2018-11), p. 1366-1383

Kurzfassung: Large tropical trees form the interface between ground and airborne observations, offering a unique opportunity to capture forest properties remotely and to investigate their variations on broad scales. However, despite rapid development of metrics to characterize the forest canopy from remotely sensed data, a gap remains between aerial and field inventories. To close this gap, we propose a new pan‐tropical model to predict plot‐level forest structure properties and biomass from only the largest trees. Location Pan‐tropical. Time period Early 21st century. Major taxa studied Woody plants. Methods Using a dataset of 867 plots distributed among 118 sites across the tropics, we tested the prediction of the quadratic mean diameter, basal area, Lorey's height, community wood density and aboveground biomass (AGB) from the i th largest trees. Results Measuring the largest trees in tropical forests enables unbiased predictions of plot‐ and site‐level forest structure. The 20 largest trees per hectare predicted quadratic mean diameter, basal area, Lorey's height, community wood density and AGB with 12, 16, 4, 4 and 17.7% of relative error, respectively. Most of the remaining error in biomass prediction is driven by differences in the proportion of total biomass held in medium‐sized trees (50–70 cm diameter at breast height), which shows some continental dependency, with American tropical forests presenting the highest proportion of total biomass in these intermediate‐diameter classes relative to other continents. Main conclusions Our approach provides new information on tropical forest structure and can be used to generate accurate field estimates of tropical forest carbon stocks to support the calibration and validation of current and forthcoming space missions. It will reduce the cost of field inventories and contribute to scientific understanding of tropical forest ecosystems and response to climate change.

Materialart: Online-Ressource

ISSN: 1466-822X , 1466-8238

URL: Issue

URL: Article

DOI: 10.1111/geb.v27.11

DOI: 10.1111/geb.12803

Sprache: Englisch

Verlag: Wiley

Publikationsdatum: 2018

ZDB Id: 1479787-2

ZDB Id: 2021283-5

SSG: 12

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The global abundance of tree palms

Muscarella, Robert ; Emilio, Thaise ; Phillips, Oliver L. ; [weitere]

Wiley ; 2020

In: Global Ecology and Biogeography Vol. 29, No. 9 ( 2020-09), p. 1495-1514

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In: Global Ecology and Biogeography, Wiley, Vol. 29, No. 9 ( 2020-09), p. 1495-1514

Kurzfassung: Palms are an iconic, diverse and often abundant component of tropical ecosystems that provide many ecosystem services. Being monocots, tree palms are evolutionarily, morphologically and physiologically distinct from other trees, and these differences have important consequences for ecosystem services (e.g., carbon sequestration and storage) and in terms of responses to climate change. We quantified global patterns of tree palm relative abundance to help improve understanding of tropical forests and reduce uncertainty about these ecosystems under climate change. Location Tropical and subtropical moist forests. Time period Current. Major taxa studied Palms (Arecaceae). Methods We assembled a pantropical dataset of 2,548 forest plots (covering 1,191 ha) and quantified tree palm (i.e., ≥10 cm diameter at breast height) abundance relative to co‐occurring non‐palm trees. We compared the relative abundance of tree palms across biogeographical realms and tested for associations with palaeoclimate stability, current climate, edaphic conditions and metrics of forest structure. Results On average, the relative abundance of tree palms was more than five times larger between Neotropical locations and other biogeographical realms. Tree palms were absent in most locations outside the Neotropics but present in 〉 80% of Neotropical locations. The relative abundance of tree palms was more strongly associated with local conditions (e.g., higher mean annual precipitation, lower soil fertility, shallower water table and lower plot mean wood density) than metrics of long‐term climate stability. Life‐form diversity also influenced the patterns; palm assemblages outside the Neotropics comprise many non‐tree (e.g., climbing) palms. Finally, we show that tree palms can influence estimates of above‐ground biomass, but the magnitude and direction of the effect require additional work. Conclusions Tree palms are not only quintessentially tropical, but they are also overwhelmingly Neotropical. Future work to understand the contributions of tree palms to biomass estimates and carbon cycling will be particularly crucial in Neotropical forests.

Materialart: Online-Ressource

ISSN: 1466-822X , 1466-8238

URL: Issue

URL: Article

DOI: 10.1111/geb.v29.9

DOI: 10.1111/geb.13123

Sprache: Englisch

Verlag: Wiley

Publikationsdatum: 2020

ZDB Id: 1479787-2

ZDB Id: 2021283-5

SSG: 12

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Phylogenetic classification of the world’s tropical forests

Slik, J. W. Ferry ; Franklin, Janet ; Arroyo-Rodríguez, Víctor ; [weitere]

Proceedings of the National Academy of Sciences ; 2018

In: Proceedings of the National Academy of Sciences Vol. 115, No. 8 ( 2018-02-20), p. 1837-1842

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 115, No. 8 ( 2018-02-20), p. 1837-1842

Kurzfassung: Knowledge about the biogeographic affinities of the world’s tropical forests helps to better understand regional differences in forest structure, diversity, composition, and dynamics. Such understanding will enable anticipation of region-specific responses to global environmental change. Modern phylogenies, in combination with broad coverage of species inventory data, now allow for global biogeographic analyses that take species evolutionary distance into account. Here we present a classification of the world’s tropical forests based on their phylogenetic similarity. We identify five principal floristic regions and their floristic relationships: ( i ) Indo-Pacific, ( ii ) Subtropical, ( iii ) African, ( iv ) American, and ( v ) Dry forests. Our results do not support the traditional neo- versus paleotropical forest division but instead separate the combined American and African forests from their Indo-Pacific counterparts. We also find indications for the existence of a global dry forest region, with representatives in America, Africa, Madagascar, and India. Additionally, a northern-hemisphere Subtropical forest region was identified with representatives in Asia and America, providing support for a link between Asian and American northern-hemisphere forests.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.1714977115

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2018

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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An estimate of the number of tropical tree species

Slik, J. W. Ferry ; Arroyo-Rodríguez, Víctor ; Aiba, Shin-Ichiro ; [weitere]

Proceedings of the National Academy of Sciences ; 2015

In: Proceedings of the National Academy of Sciences Vol. 112, No. 24 ( 2015-06-16), p. 7472-7477

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 112, No. 24 ( 2015-06-16), p. 7472-7477

Kurzfassung: The high species richness of tropical forests has long been recognized, yet there remains substantial uncertainty regarding the actual number of tropical tree species. Using a pantropical tree inventory database from closed canopy forests, consisting of 657,630 trees belonging to 11,371 species, we use a fitted value of Fisher’s alpha and an approximate pantropical stem total to estimate the minimum number of tropical forest tree species to fall between ∼40,000 and ∼53,000, i.e., at the high end of previous estimates. Contrary to common assumption, the Indo-Pacific region was found to be as species-rich as the Neotropics, with both regions having a minimum of ∼19,000–25,000 tree species. Continental Africa is relatively depauperate with a minimum of ∼4,500–6,000 tree species. Very few species are shared among the African, American, and the Indo-Pacific regions. We provide a methodological framework for estimating species richness in trees that may help refine species richness estimates of tree-dependent taxa.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.1423147112

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2015

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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