Although it lacks connectivity, isolated urban forest fragments can deliver similar amounts of ecosystem services as in protected areas

Aguiar, Jéssica Thalheimer de; Brun, Flávia Gizele König; Higuchi, Pedro; Bobrowski, Rogério

doi:10.1590/01047760202329013193

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FOREST ECOLOGY • CERNE 29 • 2023 • https://doi.org/10.1590/01047760202329013193 copy

Although it lacks connectivity, isolated urban forest fragments can deliver similar amounts of ecosystem services as in protected areas

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

Backgrounds:

Urban forests can provide citizens with various types and quantities of ecosystem services. However, the contribution of isolated forest fragments to this process and its value are not well understood. Therefore, our main goal was to analyze the patterns of ecosystem service delivery by three forest fragments along an urban-to-rural gradient. Carbon storage was estimated using three different models (general and local), with input variables such as diameter at breast height (DBH), total height, and wood density. Rainfall interception was assessed using water collectors placed inside the forest fragment, at the border, and outside, throughout the four seasons. Data were collected from three forest fragments of different types (urban, periurban, and rural), each covering an area of 1.0 hectare.

Results:

Isolated forest fragments did not significantly differ (p>0.01) in terms of carbon stocks compared to a protected area. The urban fragment had a carbon stock of 33.70 mg.ha^-1, while the rural fragment had a carbon stock of 37.19 mg.ha^-1. Regarding rainfall interception, there were no significant differences (p>0.01) among the forest fragments. The highest average rainfall interception percentage (58.65%) was observed during the summer. The capacity for rainfall interception changed from the border (lower) to the center of the fragment (higher) in a similar manner for both isolated and connected forest fragments.

Conclusion:

Isolated Forest fragments can provide ecosystem services (carbon storage and rainfall interception) in the same way as connected forest fragments in the periurban and rural places, like in protected areas. It highlights the importance of promoting the protection of forests fragments in cities.

Keywords:
carbon storage; green areas; rainfall interception; urban ecology

HIGHLIGHTS

We compared the quality of forest fragments in an urban-to-rural gradient. Urban forest fragment delivers similar amount of ecosystem services as a protected one. Rainfall interception values were not different, although higher for the urban fragment Carbon storage was lower in the urban fragment, but not different from the others.

Equations
$P = 0.0673 * {(ρ * D B H ² * h)}^{0.976}$ (1)
$P = 284.499 - (58.61 * D B H) + (4.213 * D B H ²) - (0.107 * D B H ³) + (0.001 * D B H^{4}) - ({5.68}^{6}) * d a p^{5}$ (2)
$C = 1.343 + 0.088 * D B H^{2} + 0.005 * (D B H^{2} * h)$ (3)
$P = 0.04821 * D B H^{1.34374} * h^{1.26829}$ (4)
$C = 0.01996 * D B H^{1.35703} * h^{1.28396}$ (5)

SV	Carbon Storage			Above-ground Biomass
SV	DF	MS	p-value	DF	MS	p-value
Fragments	2	6492.1	0.3893	2	1.75^-2	0.3029
Models	2	208.7	2.26 ^-16	2	1.93^-4	2.26^-16
Residual	40	216.1		40	1.57^-4
	Bartlett test: χ²=5.8208, DF=2, p-value=0.0545			Bartlett test: χ²=5.7623, DF=2, p-value=0.0565

Carbon Storage (mg.ha^-1)
Model	Average	Fragment	Average
Chave et al. (2014CHAVE, J.; RÉJOU-MÉCHAIN, M.; BÚRQUEZ, A.; CHIDUMAYO, E. Improved allometric models to estimate the aboveground biomass of tropical trees. Global Change Biology, v.20, n.10, p.3177-3190, 2014.)	91.1166 a	Rural	74.3973 a
Ratuchne (2010)	69.7340 b	Periurban	67.5308 a
Martins (2011MARTINS, P. J. Biomassa vegetal, estoque de carbono e dinâmica em um fragmento de Floresta Ombrófila Mista Montana. Dissertação (Mestrado em Agronomia) - Universidade Estadual do Centro-Oeste, Guarapuava, 2011, 86f.)	49.5141 c	Urban	68.4366 a
Above-ground biomass (mg.ha^-1)
Model	Average	Fragment	Average
Chave et al. (2014CHAVE, J.; RÉJOU-MÉCHAIN, M.; BÚRQUEZ, A.; CHIDUMAYO, E. Improved allometric models to estimate the aboveground biomass of tropical trees. Global Change Biology, v.20, n.10, p.3177-3190, 2014.)	182.2382 a	Rural	148.9581 a
Ratuchne (2010)	200.5713 a	Periurban	123.9432 a
Martins (2011MARTINS, P. J. Biomassa vegetal, estoque de carbono e dinâmica em um fragmento de Floresta Ombrófila Mista Montana. Dissertação (Mestrado em Agronomia) - Universidade Estadual do Centro-Oeste, Guarapuava, 2011, 86f.)	56.61020 b	Urban	166.5135 a

SV	DF	MS	p-value	Fragment	Rainfall interception (mm)
Seasons	3	36.189	0.2485	Urban	7.8270 a
Fragments	2	12.939	0.6076	Perirurban	6.7231 a
Residual	76	25.802		Rural	6.8194 a

UFLA - Universidade Federal de Lavras Universidade Federal de Lavras - Departamento de Ciências Florestais - Cx. P. 3037, 37200-000 Lavras - MG Brasil, Tel.: (55 35) 3829-1706, Fax: (55 35) 3829-1411 - Lavras - MG - Brazil
E-mail: cerne@dcf.ufla.br

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[1] ^*Corresponding author: rogerio@unicentro.br