Landowner perceptions of the value of natural forest and natural grassland in a mosaic ecosystem in southern Brazil

Henderson, Kirsten; Reis, Mateus; Blanco, Carolina Casagrande; Pillar, Valério D.; Printes, Rodrigo Cambará; Bauch, Chris T.; Anand, Madhur

doi:10.1007/s11625-015-0319-3

Cited by 24 publications

(27 citation statements)

References 35 publications

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“…Weak human influence (A) results in equilibrium states and FG for all possible discount rates, whereas moderate (B) and strong (C) human influence scenarios result in limit cycles xg exceeds that of land cover (F , G), because social dynamics occur at more rapid timescales than forest dynamics. In our questionnaire responses (47) we observe that landowner preference is not always reflected in actual land use, but there is a correlation between preference and actual land composition. To this effect, F , G, and A shadow oscillations in x f , xg , and xa , following a lag of 15 to 20 y (Fig.…”

Section: Resultsmentioning

confidence: 85%

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Alternative stable states and the sustainability of forests, grasslands, and agriculture

Henderson

Bauch

Anand

2016

Proc. Natl. Acad. Sci. U.S.A.

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Endangered forest-grassland mosaics interspersed with expanding agriculture and silviculture occur across many parts of the world, including the southern Brazilian highlands. This natural mosaic ecosystem is thought to reflect alternative stable states driven by threshold responses of recruitment to fire and moisture regimes. The role of adaptive human behavior in such systems remains understudied, despite its pervasiveness and the fact that such ecosystems can exhibit complex dynamics. We develop a nonlinear mathematical model of coupled human-environment dynamics in mosaic systems and social processes regarding conservation and economic land valuation. Our objective is to better understand how the coupled dynamics respond to changes in ecological and social conditions. The model is parameterized with southern Brazilian data on mosaic ecology, land-use profits, and questionnaire results concerning landowner preferences and conservation values. We find that the mosaic presently resides at a crucial juncture where relatively small changes in social conditions can generate a wide variety of possible outcomes, including complete loss of mosaics; large-amplitude, long-term oscillations between land states that preclude ecosystem stability; and conservation of the mosaic even to the exclusion of agriculture/silviculture. In general, increasing the time horizon used for conservation decision making is more likely to maintain mosaic stability. In contrast, increasing the inherent conservation value of either forests or grasslands is more likely to induce large oscillations-especially for forests-due to feedback from rarity-based conservation decisions. Given the potential for complex dynamics, empirically grounded nonlinear dynamical models should play a larger role in policy formulation for humanenvironment mosaic ecosystems.

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Section: Resultsmentioning

confidence: 85%

“…Human behavior is in part driven by the perceived future gains for their present actions (41,47,48), prompting the use of a discount factor. de is the economic discount rate (49,50) and dc is the conservation discount rate.…”

Section: [4]mentioning

confidence: 99%

Alternative stable states and the sustainability of forests, grasslands, and agriculture

Henderson

Bauch

Anand

2016

Proc. Natl. Acad. Sci. U.S.A.

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“…Furthermore, coarse-scale factors that promote establishment and growth, such as soil nutrients and moisture, often occur as patches (Garbin et al 2006, Matos et al 2016. The maximum aggregation of Araucaria at scales larger than 300 m likely reflects recruitment D r a f t 20 structuring by such large-scale factors, coupled with human effects like periodic grassland burning for pasture renewal and cattle grazing (Henderson et al 2016). Early indigenous people historically managed species of the genus Araucaria as a strategic food resource (Reis et al 2014).…”

Section: Discussionmentioning

confidence: 99%

“…In the last decades grasslands have been replaced by agriculture as well as by forest expansion, the latter occurring as a network of small patches in close contact with other land uses (Matos et al 2016). Grasslands are occasionally burned by ranchers (Overbeck et al 2007, Henderson et al 2016, and punctuated by rock outcrops (Carlucci et al 2011). They become colonized by Araucaria trees, which eventually form clusters and act as nurse trees in forest nucleation (Duarte et al 2006).…”

Section: Study Area and Speciesmentioning

confidence: 99%

“…Furthermore, several landscape patterns and processes are patchy and may influence spatial patterns of colonizing tree populations through effects on survivorship and growth. Examples are grassland burning for pasture renewal, past use by indigenous people, and the spatial distribution of rock outcrops, soil moisture, and nutrients (Garbin et al 2006, Overbeck et al 2007, Carlucci et al 2011, Tokuoka and Hosogi 2012, Reis et al 2014, Henderson et al 2016). Conversely, negative density effects are expected to act against aggregation through increased mortality and reduced growth of close neighbors.…”

Section: Introductionmentioning

confidence: 99%

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Conifer demography in forest–grassland mosaics: a landscape-scale study over a 24-year period

Souza

2017

Botany

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Survivorship was higher in forest patches than in grasslands, where it showed densitydependence. In forest patches, survivorship was positively related to both patch area and distance from forest edge. Crown breakage was more common in the grassland than in forest patches. In forest patches, it was positively related to crown size, number of conspecific neighbours, and patch area. Adult Araucaria seem to benefit from angiosperm-dominated neighbourhoods relative to isolation in grasslands. Densitydependent effects, known to be widespread among seeds and seedlings, were shown to be important to adult trees as well.

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Ecosystem carbon sequestration through restoration of degraded lands in Northeast India

et al. 2017

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This study evaluated the ecosystem carbon (C) stock and sequestration potential for predominant land uses converted from forest in Northeast India to advance the scientific knowledge and minimize the anthropogenic C emissions from land use change (LUC). Field assessments were conducted on 6 predominant land uses including (a) natural forest (NF), (b) degraded forest (DF), (c) rubber (Hevea brasiliensis) plantation (RP), (d) Areca (Areca catechu) plantation (ArP), (e) pan (Piper betle) jhum (slash and mulching) agroforestry (PB), and (f) Imperata grassland (IG) of Northeast India to assess changes in ecosystem C stock with progressive and retrogressive LUC. Ecosystem C stock was the highest for NF (300.5 Mg ha À1) and the lowest under IG (110.4 Mg ha À1 ). The ecosystem C stock under PB and IG was 11% and 63%, respectively, lower than that under NF. In comparison with DF, the gain in ecosystem C was in the order PB (125%) > RP (99%) > ArP (4%). The ratio of soil organic carbon to ecosystem C stock was~50% for NF, PB, and RP and that shifted to~80% for ArP/DF/IG. The LUC and management of DF through PB and RP indicated the ecosystem C sequestration rate of 5 and 4 Mg ha À1 year À1, respectively. Similarly, the ecosystem C sequestration rate was 0.5 and 4 Mg ha À1 year À1 , respectively, when IG was converted into ArP and RP. Therefore, restoration of degraded lands (viz., DF and IG) through RP and PB enhanced ecosystem C sequestration rate and reduced CO 2 emissions from LUC.

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Landowner perceptions of the value of natural forest and natural grassland in a mosaic ecosystem in southern Brazil

Cited by 24 publications

References 35 publications

Alternative stable states and the sustainability of forests, grasslands, and agriculture

Alternative stable states and the sustainability of forests, grasslands, and agriculture

Conifer demography in forest–grassland mosaics: a landscape-scale study over a 24-year period

Ecosystem carbon sequestration through restoration of degraded lands in Northeast India

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