Citation:

PANGAEA.972726 (dataset in review)

Name: Above-ground woody biomass and crown data for environmental plantings in Victoria Australia, sampled in 2022-2023 - Crown data
License: https://creativecommons.org/licenses/by-sa/4.0/
Keywords: Carbon capture projection; carbon sequestration; Crown radius; Environmental plantings; Field experiment; Model accuracy; productivity; Revegetation; Woodland restoration; Woody biomass

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Abstract:

This dataset stores measurements from two field campaigns in 20 environmental plantings aged 4–35 years old in Australia where stem diameters, crown radii, and heights of individual trees and shrubs were collected, and above- and below-ground woody biomass (AGB, BGB) and carbon stocks were calculated. The first measurement was undertaken by The University of Melbourne in collaboration with Land Life Company between March and June 2022 covering 14 sites aged 21-35 years in Victoria, Australia. The purpose of this field campaign was to re-evaluate the biomass carbon stock of sites previously assessed in 2000 by CSIRO within the stem diameter database (SDD; Paul et al. 2020). For each site, to ensure representative coverage, the sampling area was divided into equal-sized sectors and within each sector a random transect of 0.05 ha (100 m length by 5 m width) was laid out based on a restricted random sampling design. Two to five transects were measured per site, depending on either sampling 10% of the area or meeting Australian recommendations for minimum stem numbers for the planting configuration. In total, the dataset contains 48 transects and 4703 unique tree or shrub measurements. Stem diameters of all trees and shrubs were measured using calipers, and height (measured with a laser hypsometer) and crown radius (estimated using a measuring tape) were assessed for only a few representative trees (selected to encompass the full diameter range).

The second field campaign was undertaken by Land Life Company between June and July 2023 covering six environmental planting sites aged 4-23 years in Victoria, Australia. The purpose of this campaign was to collect crown data in two directions (perpendicular and parallel to the seeding line). For each site, 14-20 transects of 20 m length were measured (following the seeding line and avoiding gaps or areas of dead plants). In total, the data contains 108 transects and 1341 unique tree and shrub measurements. Crown radius was measured with a tape for each tree or shrub and in addition, stem diameter (measured with a caliper) and height (measured with a laser hypsometer) were also collected. For both datasets, to calculate AGB, stem diameters of multi-stem trees and shrubs were grouped into a single diameter equivalent using the equation of Penman et al. 2003, and then specific plant functional type (PFT) allometric equations (Paul et al. 2015, Paul et al. 2018) were used to derive above and below-ground biomass.

Keyword(s):

Carbon capture projection; carbon sequestration; Crown radius; Environmental plantings; Field experiment; Model accuracy; productivity; Revegetation; Woodland restoration; Woody biomass

Supplement to:

Kramer, Koen; Bennett, Lauren T; Borelle, Rémi; Byrne, Patrick; Dettman, Paul; England, Jacqueline R; Heida, Hielke; Galama, Ysbrand; Haas, Josephine; van der Heijden, Marco; Pykoulas, Anna; Keenan, Rodney; Krishnan, Vithya; Lindorff, Helena; Paul, Keryn I; Nooijen, Veronica; van Veen, Jeroen; Versmissen, Quinten; Asjes, Arnout (2024): Site-Level Modelling Comparison of Carbon Capture by Mixed-Species Forest and Woodland Reforestation in Australia. Forests, 15(6), 990, https://doi.org/10.3390/f15060990

References:

Paul, Keryn I; Larmour, John; Specht, Alison; Zerihun, Ayalsew; Ritson, Peter; Roxburgh, Stephen H; Sochacki, Stan; Lewis, Tom; Barton, Craig V M; England, Jacqueline R; Battaglia, Michael; O'Grady, Anthony; Pinkard, Elizabeth; Applegate, Grahame; Jonson, Justin; Brooksbank, Kim; Sudmeyer, Rob; Wildy, Dan; Montagu, Kelvin D; Bradford, Matt; Butler, Don; Hobbs, Trevor (2018): Testing the generality of below-ground biomass allometry across plant functional types. Forest Ecology and Management, 432, 102-114, https://doi.org/10.1016/j.foreco.2018.08.043

Paul, Keryn I; Roxburgh, Stephen H; Chave, Jerome; England, Jacqueline R; Zerihun, Ayalsew; Specht, Alison; Lewis, Tom; Bennett, Lauren T; Baker, Thomas G; Adams, Mark A; Huxtable, Dan; Montagu, Kelvin D; Falster, Daniel S; Feller, Mike; Sochacki, Stan; Ritson, Peter; Bastin, Gary; Bartle, John; Wildy, Dan; Hobbs, Trevor; Larmour, John; Waterworth, Rob; Stewart, Hugh T L; Jonson, Justin; Forrester, David I; Applegate, Grahame; Mendham, Daniel; Bradford, Matt; O'Grady, Anthony; Green, Daryl; Sudmeyer, Rob; Rance, Stan J; Turner, John; Barton, Craig V M; Wenk, Elizabeth H; Grove, Tim; Attiwill, Peter M; Pinkard, Elizabeth; Butler, Don; Brooksbank, Kim; Spencer, Beren; Snowdon, Peter; O'Brien, Nick; Battaglia, Michael; Cameron, David M; Hamilton, Steve; McAuthur, Geoff; Sinclair, Jenny (2015): Testing the generality of above‐ground biomass allometry across plant functional types at the continent scale. Global Change Biology, 22(6), 2106-2124, https://doi.org/10.1111/gcb.13201

Paul, Keryn I; Roxburgh, Stephen H; Larmour, John; Davies, Micah; England, Jacqueline R; Peck, Adam; Hagger, Valerie; Perring, Michael; Lowson, Charles; Read, Zoe; Lewis, Tom; Hobbs, Trevor; Ritson, Peter; Wilson, Brian; Ryan, Justin; Fairman, Tom; Butler, Don; Brooksbank, Kim; Hobbs, Richard J; Bennett, Richard H; Carter, Jenny (2020): Stem diameter inventories within stands of environmental or mallee plantings or natural regeneration [dataset]. CSIRO, https://doi.org/10.25919/5E22D0822A48B

Penman, Jim; Gytarsky, Michael; Hiraishi, Taka; Krug, Thelma; Kruger, Dina; Pipatti, Riitta; Buendia, Leandro; Miwa, Kyoko; Ngara, Todd; Tanabe, Kiyoto; Wagner, Fabian (2003): Good Practice Guidance for Land Use, Land-Use Change and Forestry. Japan: Intergovernmental Panel on Climate Change (IPCC), 590, https://www.ipcc.ch/site/assets/uploads/2018/03/GPG_LULUCF_FULLEN.pdf

Coverage:

Median Latitude: -36.300425 * Median Longitude: 142.663157 * South-bound Latitude: -36.769589 * West-bound Longitude: 141.681710 * North-bound Latitude: -35.922170 * East-bound Longitude: 143.772089

Date/Time Start: 2023-06-21T00:00:00 * Date/Time End: 2023-07-19T00:00:00

Minimum Elevation: 81.0 m * Maximum Elevation: 263.0 m

Event(s):

S01_DS_4 * Latitude: -36.295146 * Longitude: 143.653023 * Date/Time: 2023-06-22T00:00:00 * Elevation: 182.0 m * Location: Victoria, Australia * Method/Device: Multiple investigations (MULT)

S02_DS_8 * Latitude: -36.769589 * Longitude: 143.202170 * Date/Time: 2023-06-23T00:00:00 * Elevation: 263.0 m * Location: Victoria, Australia * Method/Device: Multiple investigations (MULT)

S03_DS-TS_9 * Latitude: -35.922170 * Longitude: 141.859720 * Date/Time: 2023-07-17T00:00:00 * Elevation: 81.0 m * Location: Victoria, Australia * Method/Device: Multiple investigations (MULT)

Comment:

Funding:

* School of Ecosystem and Forest Sciences, The University of Melbourne (Bennett, L T; Byrne, P; Karopoulos, A)

* Research Project agreement between the University of Melbourne and Land Life

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Event label	Event		Borelle, Rémi
2	Location of event	Location		Borelle, Rémi
3	Type of study	Study type
4	Latitude of event	Latitude		Borelle, Rémi
5	Longitude of event	Longitude		Borelle, Rémi
6	Date/Time of event	Date/Time		Borelle, Rémi
7	Transect number	Transect no		Borelle, Rémi		Transect ID (number going back to 1 for each site)
8	Tree ID	Tree ID		Borelle, Rémi		Unique tree ID consisting of: Site ID / transect number / tree number measurement (number restart over sites)
9	Tree, status	Tree status		Borelle, Rémi		Tree status when measured : Alive, Dead, Alive/Ingrotwth, Dead/Ingrowth, Alive/Suppressed, Alive/Ingrowth/Suppressed; suppressed represent trees with limited access to light due to canopy competition
10	Species	Species		Borelle, Rémi		Species as recorded
11	Uniform resource locator/link to reference	URL ref				Link to taxon in GBIF
12	Plant functional type	PFT		Borelle, Rémi		Plant Functional Type (nonphylogenetic groupings of species that show close similarities in their response to environmental and biotic controls): e.g. EUC = Eucalyptus, ACA = Acacia, OTH-H = Other species with High wood density, SHR = Shrubs
13	-	-		Borelle, Rémi		Height at which diameter over bark was measured: 130 cm above-ground = DBH (Diameter at Breast Height); 10 cm above-ground = DRC (Diameter at Root Colar)
14	Stem diameter	Stem diam	cm	Borelle, Rémi	Caliper	Stem 1; measured stem diameter (several measurements were done if multi stem)
15	Stem diameter	Stem diam	cm	Borelle, Rémi	Caliper	Stem 2; measured stem diameter (several measurements were done if multi stem)
16	Stem diameter	Stem diam	cm	Borelle, Rémi	Caliper	Stem 3; measured stem diameter (several measurements were done if multi stem)
17	Stem diameter	Stem diam	cm	Borelle, Rémi	Caliper	Stem 4; measured stem diameter (several measurements were done if multi stem)
18	Stem diameter	Stem diam	cm	Borelle, Rémi	Caliper	Stem 5; measured stem diameter (several measurements were done if multi stem)
19	Tree height	Tree height	m	Borelle, Rémi	Laser hypsometer
20	Crown radius	Crown rad	m	Borelle, Rémi	Parallel to the seeding line using a ruler tape
21	Crown radius	Crown rad	m	Borelle, Rémi	Perpendicular to the seeding line using a ruler tape
22	Comment	Comment		Borelle, Rémi		Any comment relevant for the measurement
23	Trees, diameter at breast height	DBH	cm	Borelle, Rémi	Calculated according to Penman et al. (2003)	Calculated and adjusted stem diameter for each tree or shrub (if multi stem)
24	Tree/shrub biomass, aboveground	Tree/Shrub biom aboevgr	kg	Borelle, Rémi	Calculated according to Paul et al. (2015)	Calculated Above-ground biomass (AGB)
25	-	-		Borelle, Rémi	Calculated according to Paul et al. (2018)	Calculated Below-Ground Biomass (BGB)
26	-	-		Borelle, Rémi	Calculated	Calculated Total Biomass as AGB + Below-Ground Biomass (AGB + BGB); to calculate the carbon stock we use the standard carbon concentration of 0.5

License:

Creative Commons Attribution-ShareAlike 4.0 International (CC-BY-SA-4.0) (License comes into effect after moratorium ends)

Status:

Curation Level: Enhanced curation (CurationLevelC) * Processing Level: PANGAEA data processing level 1 (ProcLevel1)

Size:

22787 data points

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