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Wyszukujesz frazę "above-ground biomass" wg kryterium: Temat


Wyświetlanie 1-4 z 4
Tytuł:
Radial variations in wood density and their implications for above-ground biomass estimations, in a tropical high-andean forest
Autorzy:
González-Melo, A.
Powiązania:
https://bibliotekanauki.pl/articles/2078271.pdf
Data publikacji:
2021
Wydawca:
Polska Akademia Nauk. Instytut Dendrologii PAN
Tematy:
wood density
above-ground biomass
radial variations
tropical high-Andean trees
Opis:
Wood density (WD) is a central trait to explain tree functioning, and is also an important predic- tor of tree above-ground biomass (AGB). Therefore, radial trends in WD (i.e., from pith to bark) may have important implications in understanding tree life-history variations, as well as in forest biomass and carbon estimations. The occurrence of these radial trends in WD is thought to vary among forests, particularly with canopy openness and stratification. Yet, most of the studies on this topic in tropical forests have been conducted on lowland closed-canopy forests, while very little is known about the prevalence and magnitude of these trends among trees from open-canopy forests, such as high-mountain forests. I examined radial gradients in WD and explored their implications for AGB estimations. Radial wood cores were taken with increment borers from 69 trees belonging to 18 species from a high-An- dean forest. Each wood core was cut every 1-cm, and WD was measured for every 1-cm segment. Errors in AGB estimations that resulted from not considering radial trends in WD were estimated for each tree and species. Eight out of eighteen species had significant radial trends in WD. Among these species, two species showed decreases of WD towards the bark, one species showed increments of WD from pith to bark, and five species showed U-shaped gradients (i.e., high WD near the pith and bark, and relatively low WD at inter- mediate diameters). The prevalence of U-shaped radial trends in WD may be related to the relatively open and less stratified canopy of the study forest. Not taking into account radial trends in WD led in general to under-estimations of AGB (averaging −7.66 % when using mean WD, and −5.56 % for outer WD) in most of the study species, suggesting that tropical high-Andean forests may possibly store more biomass carbon than has been previously estimated. These findings are important to expand our knowledge on wood allocation patterns during tree ontogeny, and also to improve the accuracy of biomass and carbon estimations in tropical high-Andean forests
Źródło:
Dendrobiology; 2021, 86; 19-28
1641-1307
Pojawia się w:
Dendrobiology
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Using Allometric Equations to Estimate Mangrove Biomass and Carbon Stock in Demta Bay, Papua Province, Indonesia
Autorzy:
Indrayani, Ervina
Kalor, John Dominggus
Warpur, Maklon
Hamuna, Baigo
Powiązania:
https://bibliotekanauki.pl/articles/1838405.pdf
Data publikacji:
2021
Wydawca:
Polskie Towarzystwo Inżynierii Ekologicznej
Tematy:
mangrove species
allometric equation
above-ground biomass
below-ground biomass
carbon stock
carbon sequestration
Opis:
The mangrove ecological services as carbon sinks and storage are very useful in the efforts to mitigate global warming and climate change. In this study, the above and below-ground biomass, carbon stock, as well as carbon sequestration by the mangroves in Demta Bay, Papua Province, Indonesia were estimated. Allometric equations were used to determine the mangrove biomass in 36 observation plots. The biomass value was used to determine carbon stock and estimate carbon sequestration. Nine mangrove species were found in Demta Bay, with the contribution of mangrove species to biomass (AGB and BGB) in the following order: Rhizophora apiculata > Rhizophora mucronata > Bruguiera gymnorhiza > Bruguiera cylindrica > Heritiera Littoralis > Xylocarpus molucensis > Rhizophora stylosa > Avicennia marina > Sonneratia caseolaris. The average mangrove biomass was estimated at 174.20 ± 68.14 t/ha (AGB = 117.62 ± 45.68 t/ha and BGB = 56.58 ± 22.49 t/ha). The carbon stocks in mangroves at the Ambora site were higher than the Tarfia and Yougapsa sites, averaging 123.57 ± 30.49 t C/ha, 81.64 ± 25.29 t C/ha, and 56.09 ± 39.03 t C/ha, respectively. The average carbon stock in the mangrove ecosystem of Demta Bay is estimated at 87.10 ± 34.07 t C/ha or equivalent to 319.37 ± 124.92 t CO2 e/ha. The results of this study indicate that the mangrove ecosystem in Demta Bay stores quite high carbon stocks, so it is necessary to maintain it with sustainable management. Therefore, climate change mitigation is not only done by reducing the carbon emission levels but also needs to be balanced by maintaining the mangrove ecosystem services as carbon sinks and sequestration.
Źródło:
Journal of Ecological Engineering; 2021, 22, 5; 263-271
2299-8993
Pojawia się w:
Journal of Ecological Engineering
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Określenie biomasy sosny zwyczajnej (pinus sylvestris l.) w Puszczy Niepołomickiej na podstawie przestrzennego rozkładu chmury punktów naziemnego skaningu laserowego
Biomass and volume profile of the scots pine (pinus sylvestris l.) In the niepolomice forest based on terrestrial laser scanning data – a case study
Autorzy:
Wężyk, P.
Szostak, M.
Tompalski, P.
Powiązania:
https://bibliotekanauki.pl/articles/346170.pdf
Data publikacji:
2012
Wydawca:
Polskie Towarzystwo Informacji Przestrzennej
Tematy:
masa części nadziemnej
TLS
woksel
sekwestracja węgla
above-ground biomass
voxel
carbon sequestration
Opis:
Najnowocześniejsze technologie teledetekcyjne takie jak naziemny skaning laserowy (TLS) umożliwiają pomiar 3D rzeczywistej struktury obiektów przestrzeni w tym drzew. Dane dostarczone przez TLS - bardzo gęste chmury punktów - reprezentują kształty i powierzchnie obiektów oraz ich rodzaj (np. z wykorzystaniem intensywności wiązki laserowej). Ekosystem leśny odgrywa ważną rolę w aspekcie regulacji zawartości dwutlenku węgla (CO2) w atmosferze jak również w zakresie sekwestracji węgla. Węgiel w lesie jest kumulowany w biomasie drzewnej: pnie drzew, gałęzie, Korzenie, liście (igły) oraz w materii organicznej w glebie. W modelowaniu sekwestracji węgla w krajobrazie z wykorzystaniem analiz przestrzennych oraz w zarządzaniu przestrzenią leśną informacja 2D wydaje się nie być wystarczająca. Potrzebna jest informacja 3D tj. rozkład przestrzenny biomasy i objętości drzewostanu. Jest to ważne nie tylko dla zarządzających przestrzenią leśną, ale i w aspekcie polityki energetycznej oraz konwencji międzynarodowych. Dla określenia przestrzennego rozkładu biomasy przeprowadzono badania w Puszczy Niepołomickiej (Regionalna Dyrekcja Lasów Państwowych w Krakowie, pododdział 153f) w drzewostanie sosnowym (Pinus sylvestris L.). Średni wiek drzewostanu wynosił 147 lat, średnia wartość pierśnicy D = 42 cm i wysokości H = 27 metrów (wg SILP). Kołowa powierzchnia badawcza (r = 18 m; powierzchnia 1017.88 m2) składała się z 16 sosen (średnia: D 46 cm; H = 26.0 m), które zostały zeskanowane przy użyciu skanera laserowego FARO PHOTON 80. Wykonano 4 skany (1 pozycja centralna i 3 dodatkowe wokół) aby uzyskać pełną reprezentację pni i koron drzew (gałęzie z igłami). Dla określenia biomasy została wybrana testowa sosna zwyczajna o pierśnicy 52.7 cm, wysokości 28.3 m, długości korony 8.6 m oraz szerokości korony 9.3 m. W celu uzyskania referencji dla analiz chmury punktów TLS zostały w terenie pomierzone średnica i obwód pnia w sekcjach co 1 m. W terenie zebrano: 490.0 kg gałęzi, 109.3 kg pędów z igłami oraz 13.5 kg jemioły. W sumie biomasa mokrej korony wyniosła 612.8 kg (96.3 t/ha). Badania laboratoryjne przeprowadzono na 6 próbkach pędów z igłami, które po wysuszeniu ważyły 53.3 kg, w tym: igły 34.0 kg, pędy 19.3 kg. Wartości z badań laboratoryjnych porównano do wyznaczonych wg wzoru empirycznego (Socha, Wężyk 2007), które wyniosły: dla pędów z igłami w stanie wilgotnym 104.1 kg. (-4.8% różnicy) i w stanie suchym 71.2 kg (33.5% różnicy). Na podstawie analizy chmury punktów TLS (woksele) został wyznaczony pionowy rozkład biomasy.
The state of the art technology like Terrestrial Laser Scanning (TLS) allows measuring the 3D structure of real world objects, including trees. The data delivered by the TLS - very dense point clouds - represent shapes and surfaces of the objects and their type (e.g. using intensity of the laser beam). Forest ecosystem plays an important role in the regulation of the carbon dioxide (CO2) content in the atmosphere and in carbon sequestration as well. In forest, carbon is stored in wood biomass: tree trunks, branches, roots, foliage (needles and leaves) and in the organic material in soil. Using GIS spatial analyses for the carbon sequestration modeling, the 2D information seems to be not sufficient. 3D information of the spatial biomass and volume distribution is needed and is important not only for forest professionals, but also for energy policy and international conventions. The study was done in the Niepolomice Forest in the mature Scots pine (Pinus sylvestris L.) stand (Regional Forest Directorate Krakow. compartment 153f). The age of the stand was 147 years and mean values of DBH 42 cm and height 27 m. The study circular plot (r=18m; area ~1000sqm) consisted of 16 pines (mean: DBH 46 cm; H = 26.0 m) which were scanned using the FARO PHOTON 80. The 4 scans (1 central position and 3 additional around the central one) were made to get full representation of the tree stems and crowns (branches with needles). Tree number 13 (DBH 52.7 cm; H 28.3 m; crown length 8.6 m. crown width 9.3 m) was selected for the biomass study. The stem diameter and perimeter was measured every 1m (section) to get the references for the TLS analysis. The wet biomass of the selected tree parts was: 490.0 kg - branches. 109.3 kg shoots with needles 13.5 kg – mistletoe. The sum of the wet crown biomass was 612.8 kg (96.3 t/ha). The laboratory elaboration based of 6 samples from the crown allowed to receive the dry biomass of crown (53.3 kg) and its fractions: needles 34.0 kg, shoots 19.3 kg. The obtained results were compared to empiric formula (Socha, Wężyk 2007), which delivered results for the wet biomass of shots with needles 104.1 kg (4.8 % difference) and dry biomass 71.2 kg (33.5 % difference). Based on the voxel analysis of the TLS data the vertical characteristic of the volume and biomass distribution was determined.
Źródło:
Roczniki Geomatyki; 2012, 10, 5; 79-89
1731-5522
2449-8963
Pojawia się w:
Roczniki Geomatyki
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Tree architecture description using a single-image photogrammetric method
Autorzy:
Gazda, Anna
Kędra, Kamil
Powiązania:
https://bibliotekanauki.pl/articles/956834.pdf
Data publikacji:
2017
Wydawca:
Polska Akademia Nauk. Instytut Dendrologii PAN
Tematy:
stand structure
biometry
non-destructive method
plant morphology
above-ground biomass
fagus sylvatica l
Opis:
Tree architecture is thought to allow species to share available resources both above and below ground. The description of plant architecture is useful to model plant structure and function, as well as interactions with other species or generally with the environment. The aim of this study was to present a conceptual implementation of a simple photogrammetric method for the above-ground tree architecture description of leafless individuals growing under different conditions. The implemented method was single- image photogrammetry. The novel aspect is the heuristic assumption that tree’s image is a projection onto a plane that cross-sections the stem base; which enables assessment of a set of the canopy attributes, with only one image involved. The method was tested in two ways: (1) in the field: in terms of its applicability to real trees, we used 31 plots with different terrain slope and tree density, in natural forest, in every case the target tree was European beech (Fagus sylvatica L.) which is known as a very plastic tree species, and (2) with virtual tree-like 3D models, created with L-system rules, to determine the accuracy of the method. Some of the traits measured or estimated with respect to the projection plane α are: the length of the trunk and branches (L), inclination of the tree main axis from the vertical (IA), crown width (CW), two opposite crown radius (CR), crown length (CL); and the external factors, like the terrain slope inclination (S) and number of trees competing for light (N). The advantages (e.g., low time consumption and low cost), difficulties (e.g., occlusion of tree tops) and accuracy in idealised conditions were described. The tree traits that can be measured using the proposed method are essential for estimating many ecological parameters. Our method allows reducing fieldwork time to a minimum and taking measurements of large numbers of plots daily when the environmental conditions are similar, even when they are taken by only one person. This method is very useful for conducting studies on a temporal scale (e.g., to record changes in the branching structure). Future research is needed to validate the method in different environments.
Źródło:
Dendrobiology; 2017, 78; 124-135
1641-1307
Pojawia się w:
Dendrobiology
Dostawca treści:
Biblioteka Nauki
Artykuł
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