Publications
Found 28 publication(s)
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Calvas, B.; Castro, L.M.; Kindu, M.; Bingham, L.; Pintado, K.; Torres Celi, J.; Knoke, T. & Cueva Ortiz, J.L. (2024): Large differences between observed and expected Ecuadorian deforestation from 2001 to 2009: a counterfactual simulation approach. Regional Environmental Change 24, 94.
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DOI: 10.1007/s10113-024-02253-0
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Abstract:
Abstract:
Ensuring the integrity of the world’s forests is indispensable for mitigating climate change, combatting biodiversity loss, and protecting the livelihoods of rural communities. While many strategies have been developed to address deforestation across different geographic scales, measuring their impact against a fluctuating background of market-driven forest loss is notoriously challenging. In this article, we (1) asses deforestation in Ecuador using a dynamic, counterfactual baseline that excludes non-market factors, (2) identify periods of reduced and excess deforestation, and (3) assess the economic consequences
of associated CO2 emissions using the social cost of carbon metric. We construct a counterfactual market-forces-only reference scenario by simulating heterogeneous profit-seeking agents making satisficing land-use allocation decisions under uncertainty. The model simulates a reference scenario for 2001–2022, a period encompassing dollarization, the beginning of a constitution granting inalienable rights to nature, and the launch of the largest payments for ecosystem services program in Ecuador’s history. On this period, total deforestation was approximately 20% lower than expected in a market-forces-only
scenario (9540 vs.12,000 km2). The largest deviation occurred in 2001–2009, when observed deforestation was 43.6% lower than expected (3720 vs 6590 km2).
From 2010 onwards, deforestation appears to be market-driven. We assess the economic value of avoided CO2 emissions at US $5.7 billion if the reduction is permanent, or US $3.1 billion considering a 1% risk of loss from 2022 onwards. We discuss contributing factors that likely shaped periods of reduced and excess deforestation and stress the need to use realistic baselines.
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Keywords: |
land use |
land use change |
land use modeling |
Ecuador, Climate Change, Land Use |
land use/land cover |
Knoke, T.; Hanley, N.; Roman-Cuesta, R.M.; Groom, B.; Venmans, F. & Paul, C. (2023): Trends in tropical forest loss and the social value of emission reductions. Nature Sustainability online, 1-15.
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DOI: 10.1038/s41893-023-01175-9
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Abstract:
Reducing global forest losses is essential to mitigate climate change and
its associated social costs. Multiple market and non-market factors can
enhance or reduce forest loss. Here, to understand the role of non-market
factors (for example, policies, climate anomalies or conflicts), we can
compare observed trends to a reference (expected) scenario that excludes
non-market factors. We define an expected scenario by simulating
land-use decisions solely driven by market prices, productivities and
presumably plausible decision-making. The land-use allocation model
considers economic profits and uncertainties as incentives for forest
conversion. We compare reference forest losses in Brazil, the Democratic
Republic of Congo and Indonesia (2000–2019) with observed forest
losses and assign differences from non-market factors. Our results
suggest that non-market factors temporarily lead to lower-than-expected
forest losses summing to 11.1 million hectares, but also to phases with
higher-than-expected forest losses of 11.3 million hectares. Phases with
lower-than-expected forest losses occurred earlier than those with
higher-than-expected forest losses. The damages avoided by delaying
emissions that would otherwise have occurred represent a social value
of US$61.6 billion (as of the year 2000). This result shows the economic
importance of forest conservation efforts in the tropics, even if reduced
forest loss might be temporary and reverse over time.
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Keywords: |
land use change |
land use modeling |
social costs of carbon |
Knoke, T. (27.7.2022). Modelling the Social Acceptability of Sustainable Intensification. Presented at Eventos UTPL, UTPL, Loja, Conversatorio.
Knoke, T.; Gosling, E. & Reith, E. (2022): Understanding and modelling the ambiguous impact of off-farm income on tropical deforestation. Journal of Land Use Science 17, 1-20.
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DOI: 10.1080/1747423X.2022.2146220
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Abstract:
Few land-allocation models consider the impact of off-farm income on
tropical deforestation. We provide a concept to integrate off-farm income
in a mechanistic multiple-objective land-allocation model, while distinguishing
between farms with and without re-allocation of on-farm labor
to obtain off-farm income. On farms with re-allocation of labor we found
that off-farm income reduced farmers’ financial dependency on deforestation-
related agricultural income leading to less tropical deforestation.
The influence of off-farm income covered two aspects: availability of
additional income and re-allocation of on-farm labor to off-farm activities.
The labor effect tended to reduce deforestation slightly more than the
income effect. On farms without re-allocation of on-farm labor we showed
how farmers can use off-farm income to purchase additional labor to
accelerate deforestation. Our study highlights the importance of considering
off-farm income in land-use models to better understand, model
and possibly curb tropical deforestation.
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Keywords: |
land use change |
Husmann, K.; von Groß, V.; Bödeker, K.; Fuchs, J.; Paul, C. & Knoke, T. (2022): optimLanduse: A package for multiobjective land-cover composition optimization under uncertainty. Methods in Ecology and Evolution Online, 1-10.
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DOI: 10.1111/2041-210X.14000
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Abstract:
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1. How to simultaneously combat biodiversity loss and maintain ecosystem functioning
while improving human welfare remains an open question. Optimization
approaches have proven helpful in revealing the trade-offs
between multiple
functions and goals provided by land-cover
configurations. The R package optim-
Landuse provides tools for easy and systematic applications of the robust multiobjective
land-cover
composition optimization approach of Knoke et al. (2016).
2. The package includes tools to determine the land-cover
composition that best
balances the multiple functions a landscape can provide, and tools for understanding
and visualizing the reasoning behind these compromises. A tutorial
based on a published dataset guides users through the application and highlights
possible use-cases.
3. Illustrating the consequences of alternative ecosystem functions on the theoretically
optimal landscape composition provides easily interpretable information
for landscape modelling and decision-making.
4. The package opens the approach of Knoke et al. (2016) to the community of
landscape modellers and planners and provides opportunities for straightforward
systematic or batch applications.
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Keywords: |
models of land-use/land-cover change |
multicriteria assessment |
robust optimization |
Knoke, T.; Gosling, E.; Reith, E.; Gerique, A.; Pohle, P.; Valle-Carrión, L.A.; Ochoa Moreno, S.; Castro, L.M.; Calvas, B.; Hildebrandt, P.; Döllerer, M.; Bastit, F. & Paul, C. (2022): Confronting sustainable intensification with uncertainty and extreme values on smallholder tropical farms. Sustainability Science 0, 1-18.
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DOI: 10.1007/s11625-022-01133-y
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Sustainable intensification of agricultural lands might reconcile the conservation of tropical forest with food production,but in-depth assessments considering uncertainty and extreme values are missing. Uncertainty prohibits mapping probabilities to potential future states or ranking these states in terms of their likelihood. This in turn hampers the assessment of possible decision outcomes. Here, we use simulations to investigate how uncertainty may influence the social acceptability of alternative land-use strategies to halt tropical deforestation (including sustainable intensification), based on indicators representing farmer satisfaction. The results show how extreme values (worst values) for indicators of farmer satisfaction
may undermine the adoption of sustainable intensification. We demonstrate that a pure forest conservation strategy leads to lower food production, but outperforms a sustainable intensification strategy that maintains food security. Pure forest conservation performed better, i.e., could secure higher farmer satisfaction, than sustainable intensification across a range of indicator groups. This suggests strong barriers to achieving sustainable intensification. Using agricultural subsidies breaks the dominance of pure forest conservation by enhancing the economic returns of sustainable intensification. We discuss the
importance of access to labor and farmers’ preferences for the use of already cleared lands, which achieved the worst values under sustainable intensification and conclude that any assessment of land-use strategies requires careful consideration of uncertainty and extreme values.
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Keywords: |
deforestation |
land use change |
sustainable land use |
agriculture |
land use modeling |
intensification |
Knoke, T.; Gosling, E. & Paul, C. (2020): Use and misuse of the net present value in environmental studies. Ecological Economics 174(106664), 1-15.
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DOI: 10.1016/j.ecolecon.2020.106664
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Abstract:
Abstract:
Environmental studies regularly use the net present value (NPV) to value benefits and costs of projects. However, the NPV disregards whether the stream of net benefits is steady or volatile and ignores the distribution of net benefits among different groups of people. Here we test alternatives to NPV, building on two example cases: 1) We use discounted utility (DU) to evaluate land-use projects and calculate opportunity costs for avoided deforesta-tion. 2) We simulate decision-making on tropical deforestation, whereby we use multiple decision criteria to consider the distribution of net benefits between two groups: farmers and conservationists. Results show considerable differences in the ranking of projects between DU and NPV, when projects are not marginal. Compared to DU, NPV regularly overestimates the value of forest plantations. Moreover, NPV tends to overstate the opportunity costs of avoiding deforestation in terms of saved carbon emissions. Not accounting for the distribution of net benefits in optimizing land-use allocation leads to suboptimal simulated deforestation scenarios. We therefore suggest that future studies should either also use DU to value economic consequences of projects or that they use the NPV as only one among several socio-economic and ecological decision criteria.
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Keywords: |
land allocation |
Net present value |
Discounted utility |
Euclidian distance |
Uncertainty |
Castro, L.M.; Härtl, F.; Ochoa Moreno, S.; Calvas, B.; Izquierdo Montoya, G.L. & Knoke, T. (2018): Integrated bio-economic models as tools to support land-use decision making: a review of potential and limitations. Journal of Bioeconomics online , online.
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DOI: 10.1007/s10818-018-9270-6
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Abstract:
Abstract:
Bio-economic modelling has become a useful tool for anticipating the
outcomes of policies and technologies before their implementation. Advances in mathematical
programming have made it possible to build more comprehensive models. In
an overview of recent studies about bio-economic models applied to land-use problems
in agriculture and forestry,we evaluated howaspects such as uncertainty,multiple
objective functions, system dynamics and time have been incorporated into models.
We found that single objective models were more frequently applied at the farm level,
while multiple objective modelling has been applied to meet concerns at the landscape
level. Among the objectives, social aspects are seldom represented in allmodels, when
being compared to economic and environmental aspects. The integration of uncertainty
is occasionally a topic, while stochastic approaches are more frequently applied than
non-stochastic robust methods. Mostmultiple-objectivemodels do not integrate uncertainty
or sequential decision making. Static approaches continue to be more recurrent
than truly dynamic models. Even though integrating multiple aspects may enhance
our understanding of a system; it involves a tradeoff between complexity and robustness
of the results obtained. Land-use models have to address this balance between
complexity and robustness in order to evolve towards robust multiple-objective spatial
optimization as a prerequisite to achieve sustainability goals.
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Keywords: |
Uncertainty analysis |
land use modeling |
Beck, E.; Knoke, T.; Farwig, N.; Breuer, L.; Siddons, D. & Bendix, J. 2017: Landscape Restoration, Sustainable Land Use and Cross-scale Monitoring of Biodiversity and Ecosystem Functions. A Science-directed Approach for South Ecuador. (Universität Bayreuth).
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DOI: 10.5678/lcrs/pak823-825.cit.1696
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Abstract:
Abstract:
In 201 3, the “Platform for Biodiversity and Ecosystem
Monitoring and Research in South Ecuador”
(www.TropicalMountainForest.org) was launched as a
knowledge transfer program in the biodiversity
hotspot of the southern Ecuadorian Andes, jointly
funded by the German Research Foundation (DFG)
and Ecuadorian non-university partners. One of the
overall aims of the transdisciplinary program is to
design science-directed recommendations for an
ecologically sustainable, economically profitable and
socially compatible use of the mainly rural land. The
second major goal of the program is the development
of functional indicators that are crucial for the
monitoring of impacts of environmental change on the
ecosystem and its functions. They encompass
abiotic, abiotic-biotic and biotic-biotic interrelations,
and are sensitive - though to different extent - to
subtle changes in the environment. Therefore, it is not
only the interaction per se, which has to be examined.
In addition to that the quantification of the response to
certain environmental stressors is needed.
Representing the fundament of ecosystem functioning,
biodiversity as such or certain functional taxa can
be monitored for an assessment of the ecosystem’s
state. Important further criteria for the selection of an
indicator are general applicability, easiness of
handling and stability against pitfalls.
This book “Landscape Restoration, Sustainable
Use and Cross-scale Monitoring of Biodiversity
and Ecosystem Functions: A Science-directed
Approach for South Ecuador” presents in its first
part a compilation of sustainable land use concepts
that have been proven for application in the Provinces
Loja and Zamora Chinchipe and beyond, given
comparable environmental conditions. The second
part describes functional indicators as well as their
development, monitoring and application.
Both parts start with introductory chapters on the
major aims of the respective transdisciplinary
program, followed by contributions showing how land
use concepts can be used to achieve sustainable
management and ecosystem services, as well as how
functional indicators can be used to assess and
monitor the stability of biodiversity and ecosystem
functions.
It should be stressed that this book has not the aim to
present only a scientific summary of the developed
systems. Instead, it targets on stakeholders as our
non-university partners and beyond which are in
charge of environmental planning and ecosystem
function surveillance in Ecuador. In the manner of a
technical handbook, it gives a comprehensible introduction
to the land use option or the indicator,
followed by hints how to apply, implement and assess
the developed systems. The book is and was
complementing our three pillars of capacity building
which also includes stakeholder workshops on the
developed land use options and indicators, and
demonstration plots in the field.
With this book the authors highly acknowledge the
generous funding of the research by the German
Science Foundation (DFG) and the logistic,
administrative and practical support by the foundation
Naturaleza y Cultura Internacional (Loja and Del
Mar). Such research requires also fruitful
collaboration with local academic institutions, the
Universidad Tecnica Particular de Loja, the
Universidad Nacional de Loja, the Universidad de
Cuenca, the Universidad de Azuay, and the local
weather service INAMHI. These partnerships were a
great experience in capacity building on both sides,
as evidenced by a number of academic degrees
obtained and by numerous joint publications. The
authors are also grateful for the support of our nonuniversity
research partners beyond NCI, namely
ETAPA EP (Empresa Pública Municipal de
Telecomunicaciones, Agua potable, lcantarillado y
Saneamiento de Cuenca- Ecuador), the Gobierno
Municipal de Zamora and the regional water fund
FORAGUA (Fondo Regional del Agua). Further,
sincere thanks are owed to the Ecuadorian Ministry of
the Environment (MAE) for permission to conduct
research in South Ecuador.
The Editors
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Keywords: |
sustainable land use |
Cross-scale Monitoring |
science-directed guidelines |
landscape restoration |
Paul, C.; Weber, M. & Knoke, T. (2017): Agroforestry versus farm mosaic systems – Comparing land-use efficiency, economic returns and risks under climate change effects. Science of The Total Environment online , online.
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DOI: 10.1016/j.scitotenv.2017.02.037
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Abstract:
Abstract:
Increasing land-use conflicts call for the development of land-use systems that reconcile agricultural production with the provisioning of multiple ecosystem services, including climate change mitigation. Agroforestry has been suggested as a global solution to increase land-use efficiency, while reducing environmental impacts and economic risks for farmers. Past research has often focused on comparing tree-crop combinations with agricultural monocultures, but agroforestry has seldom been systematically compared to other forms of land-use diversification, including a farm mosaic. This form of diversification mixes separate parcels of different land uses within the farm. The objective of this study was to develop a modelling approach to compare the performance of the agroforestry and farm mosaic diversification strategies, accounting for tree-crop interaction effects and economic and climate uncertainty. For this purpose, Modern Portfolio Theory and risk simulation were coupled with the process-based biophysical simulation model WaNuLCAS 4.0. For an example application, we used data from a field trial in Panama. The results show that the simulated agroforestry systems (Taungya, alley cropping and border planting) could outperform a farm mosaic approach in terms of cumulative production and return. Considering market and climate uncertainty, agroforestry showed an up to 21% higher economic return at the same risk level (i.e. standard deviation of economic returns). Farm compositions with large shares of land allocated to maize cultivation were also more severely affected by an increasing drought frequency in terms of both risks and returns. Our study demonstrates that agroforestry can be an economically efficient diversification strategy, but only if the design allows for economies of scope, beneficial interactions between trees and crops and higher income diversification compared to a farm mosaic. The modelling approach can make an important contribution to support land-use decisions at the farm level and reduce land-use conflicts at the landscape level.
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Keywords: |
climate change |
Agroforestry |
land use modeling |
Economics |
Paul, C. & Knoke, T. (2016): Forest value: More than commercial. Science 354(6319), 1541-1541.
Ochoa Moreno, S.; Paul, C. & Knoke, T. (2016): Warum Kleinbauern in Ecuador die Landnutzung diversifizieren. Allgemeine Forst Zeitschrift für Waldwirtschaft und Umweltvorsorge 71(13), 31-34.
Knoke, T.; Paul, C.; Hildebrandt, P.; Calvas, B.; Castro, L.M.; Härtl, F.; Döllerer, M.; Hamer, U.; Windhorst, D.; Wiersma, Y.; Curatola Fernández, G.F.; Obermeier, W.A.; Adams, J.; Breuer, L.; Mosandl, R.; Beck, E.; Weber, M.; Stimm, B.; Haber, W.; Fürst, C. & Bendix, J. (2016): Compositional diversity of rehabilitated tropical lands supports multiple ecosystem services and buffers uncertainties. Nature Communications 7, Article number:11877.
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DOI: 10.1038/ncomms11877
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Abstract:
Abstract:
High landscape diversity is assumed to increase the number and level of ecosystem services. However, the interactions between ecosystem service provision, disturbance and landscape composition are poorly understood. Here we present a novel approach to include uncertainty in the optimization of land allocation for improving the provision of multiple ecosystem services. We refer to the rehabilitation of abandoned agricultural lands in Ecuador including two types of both afforestation and pasture rehabilitation, together with a succession option. Our results show that high compositional landscape diversity supports multiple ecosystem services (multifunction effect). This implicitly provides a buffer against uncertainty. Our work shows that active integration of uncertainty is only important when optimizing single or highly correlated ecosystem services and that the multifunction effect on landscape diversity is stronger than the uncertainty effect. This is an important insight to support a land-use planning based on ecosystem services.
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Keywords: |
ecosystem services |
South Ecuador |
sustainable land use |
land use modeling |
restoration |
Ochoa Moreno, S.; Paul, C.; Castro, L.M.; Valle, L. & Knoke, T. (2016): Banning goats could exacerbate deforestation of the Ecuadorian dry forest - How the effectiveness of conservation payment is influenced by productive use options. Erdkunde 70(1), 49-67.
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DOI: 10.3112/erdkunde.2016.01.04
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Abstract:
Abstract:
Due to ongoing conversion of the dry forests of southern Ecuador to pasture and farmland, they are among the most threatened ecosystems globally. This study explored how to control deforestation in the region while securing the livelihoods of local people through land-use diversification and compensation payments. Results are based on interview data collected from 163 households near the Laipuna Reserve in southern Ecuador. Combining modern financial theory and von Thünen’s theory of land distribution, we optimized land-use shares of two types of forest management (banning and allowing goat grazing) and three crops (maize, beans and peanuts). Land-use portfolios were calculated for four different farm sizes, represented by the quartiles of the farm size distribution. We found that goat grazing was important for diversifying farm income and reducing financial risks for all farm sizes. However, forest area would still be converted to cropland under the current financial coefficients. The amount of compensation needed to maintain current forest cover was calculated for two different scenarios: 1) banning goat grazing and 2) allowing forest use where the farmer could decide how much forest area would be allocated to each land-use option. Offering financial compensation for forest preservation (Scenario 1) reduced deforestation but would still lead to a conversion of at least 23?% of current forests to croplands. Allowing forest use in a compensation scheme (Scenario 2) would help retain 96?% of the current forest cover, with 29?% of this forest being set aside for conservation. This scenario would suppose annual payments ranging from $4 to $89 ha-1, with the largest farms requiring the lowest payments. In contrast, banning goats from the forest would even risk losing the entire forest area to cropland, if compensation fell below $50 ha-1 yr-1. We conclude that coupling productive options with secure compensation payments and developing policies that support land-use diversification and sustainable use of forest resources, will be most effective in conserving the Ecuadorian dry forest.
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Keywords: |
silvopasture |
land change modelling |
Laipuna |
land use change |
financial modeling of land-use shares |
dry forest |
socio bosque |
Knoke, T.; Paul, C.; Härtl, F.; Castro, L.M.; Calvas, B. & Hildebrandt, P. (2015): Optimizing agricultural land-use portfolios with scarce data—A non-stochastic model. Ecological Economics 120, 250-259.
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DOI: 10.1016/j.ecolecon.2015.10.021
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Abstract:
Abstract:
The theory of portfolio selection has often been applied to help improving decisions on the environment. The information required to apply this theory includes data on covariance of the uncertain returns between all combinations of the economic options and normally distributed returns. As it may be problematic to fulfil all data requirements and assumptions, the paper proposes a variant of robust portfolio optimization as an alternative. It considers future uncer-tainties in a non-stochastic fashion by means of possible deviations from the nominal return of land-use alternatives. The maximization of the economic return of the land-use portfolio is conditional to meeting an inclusive set of constraints. These demand that the same, whenever possible high, proportion of a required return threshold is achieved by means of the robust solution for each deviation scenario considered. The paper compares the land-use portfolios derived non-stochastically with portfolios generated by classical stochastic mean-variance op-timization. Based on data for eight agricultural crops typical for the Ecuadorian lowlands the results show that, depending on the deviation scenario assumed, the robust portfolios show a greater Shannon index compared to classical portfolios. For the same standard deviation of returns (derived through the classical sum of all covariances) the robust portfolios show no more than 2-5% loss in economic return in most cases. Occasionally, the loss has been higher, up to 20%. In this case the Shannon index was about 2.5 times higher compared with that of the conventional portfolio. The highly diverse portfolio achieved a much better protection against low relative performance. The results obtained show that the non-stochastic derivation of land-use portfolios is a good alternative to the classical stochastic model, whenever eco-nomic information is scarce.
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Keywords: |
land use |
diversification |
sustainable land use |
land use modeling |
Portfolio Theory |
Knoke, T. & Hahn, A. (2013): Global Change and the Role of Forests in Future Land-Use Systems. In: R. Matyssek, N. Clarke, P. Cudlin, T.N. Mikkelsen, J.-P. Tuovinen, G. Wieser; E. Paoletti (eds.): Climate Change, Air Pollution and Global Challenges Understanding and Perspectives from Forest Resea ( 13), Elsevier, Series: Developments in Environmental Science, 569-588.
Castro, L.M.; Calvas, B. & Knoke, T. (2015): Ecuadorian Banana Farms Should Consider Organic Banana with Low Price Risks in Their Land-Use Portfolios. PlOS one 10(3), e0120384.
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DOI: 10.1371/journal.pone.0120384
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Abstract:
Abstract:
Organic farming is a more environmentally friendly form of land use than conventional agriculture. However, recent studies point out production tradeoffs that often prevent the adoption of such practices by farmers. Our study shows with the example of organic banana production in Ecuador that economic tradeoffs depend much on the approach of the analysis. We test, if organic banana should be included in economic land-use portfolios, which indicate how much of the land is provided for which type of land-use. We use time series data for productivity and prices over 30 years to compute the economic return (as annualized net present value) and its volatility (with standard deviation as risk measure) for eight crops to derive land-use portfolios for different levels of risk, which maximize economic return. We find that organic banana is included in land-use portfolios for almost every level of accepted risk with proportions from 1% to maximally 32%, even if the same high uncertainty as for conventional banana is simulated for organic banana. A more realistic, lower simulated price risk increased the proportion of organic banana substantially to up to 57% and increased annual economic returns by up to US$ 187 per ha. Under an assumed integration of both markets, for organic and conventional banana, simulated by an increased coefficient of correlation of economic return from organic and conventional banana (? up to +0.7), organic banana holds significant portions in the land-use portfolios tested only, if a low price risk of organic banana is considered. We conclude that uncertainty is a key issue for the adoption of organic banana. As historic data support a low price risk for organic banana compared to conventional banana, Ecuadorian farmers should consider organic banana as an advantageous land-use option in their land-use portfolios.
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Keywords: |
land diversification |
agriculture |
land use modeling |
Paul, C. & Knoke, T. (2015): Between land sharing and land sparing – what role remains for forest management and conservation?. International Forestry Review 17(2), 210-230.
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Conflicts between satisfying the growing global demand for food and energy and simultaneously preserving natural ecosystems have spurred renewed debate about how to optimise future land use. This study reviews the role of forests and forest management within these proposed land-use strategies and reveals that discussions about future management of forest and agricultural lands take place largely exclusive of one another. Based on these results, a land-use concept is proposed in which sustainable agricultural intensification is paired with land-use diversification as a risk reduction strategy and complemented by productive restoration and compensation payments for forest conservation. Improving afforestation and agroforestry practices on degraded lands and investigating effects of diversification on the landscape scale are identified as important objectives for future interdisciplinary research. Considering forests as part of a comprehensive land-use portfolio will be vital in order to help strengthen links and ease conflicts between forest and agricultural land uses.
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Keywords: |
sustainable land use |
indirect land use change (ILUC) |
natural forest management |
Knoke, T.; Calvas, B.; Ochoa Moreno, S.; Onyekwelu, J. & Griess, V. (2013): Food production and climate protection—What abandoned lands can do to preserve natural forests. Global Environmental Change 23, 1064-1072.
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DOI: 10.1016/j.gloenvcha.2013.07.004
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Abstract:
Abstract:
Approaches to reconciling food production with climatic and environmental protection often require agricultural intensification. The production of more food per unit of agricultural land through "sustainable intensification" is intended to enable the protection of natural ecosystems elsewhere (land sparing). However, there are problems associated with agricultural intensification; such as soil erosion, eutrophication or pollution of water bodies with chemicals, landscape homogenization and loss of biodiversity; for which solutions have not yet been found. Reuse of abandoned agricultural lands – which are abundant throughout the world – to address the rising demand for food is a potentially important alternative, which up to now has been widely ignored. To test the power of this alternative, equilibrium economic land allocation to various land-use practices by risk-avoiding tropical farmers in Ecuador was simulated. The reestablishment of pastures on abandoned cattle lands lowered prices for pasture
products, and also triggered conversion of existing pasture into cropland. The resulting land-use change increased total annual food production in a moderate scenario from the current level of 17.8–23.1 petacalories (10^15 calories), which amounted to a production increase of 30%. At the same time, there was a 19% reduction in the amount of payments to farmers required to preserve tropical forests – one of the world’s greatest terrestrial carbon stores.
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Keywords: |
Ecuador |
land use |
ecosystem services |
Alnus acuminata |
land change modelling |
abandoned pasture |
grassland |
climate change |
carbon stocks |
conservation payments |
Knoke, T.; Román-Cuesta, R.M.; Weber, M. & Haber, W. (2012): How can climate policy benefit from comprehensive land-use approaches?. Frontiers in Ecology and the Environment 10, 438-445.
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DOI: 10.1890/110203
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Abstract:
Schemes that reward developing countries for the mitigation of greenhouse-gas (GHG) emissions through preservation and restoration of their forests are becoming more common. However, efforts to reduce GHG emissions must also consider food production. This creates an apparent conflict, since agricultural production ? a key driver of GHG emissions as a consequence of forest clearance ? will increase as human populations continue to grow. We argue that a mix of small cropland and forest parcels enables sustainable intensification of agriculture by minimizing soil degradation . Economic analyses of the mixed land-use concept suggest an improvement of long-term economic performance by 19?25% relative to conventional industrial agriculture. Adopting this approach requires farm management plans, landscape zoning, and new instruments to finance sustainable agriculture. We conclude that climate policy and food production are reconciled through an integrative landscape concept that combines sustainable intensification of agriculture and reforestation of abandoned lands.
Knoke, T. & Huth, A. (2011): Modelling Forest Growth and Finance: Often Disregarded Tools in Tropical Land Management. In: Guenter, S., Weber, M., Stimm, B., Mosandl, R. (eds.): Silviculture in the Tropics (S. Guenter et al. (eds.), Silviculture in the Tropics Tropical F), Springer, 129-142.
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DOI: 10.1007/978-3-642-19986-8_11
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Abstract:
Abstract:
While many studies analyse patterns of tropical land management with a
backward-oriented approach that utilises data of the past, we propose to consider
future-oriented modelling approaches to find sustainable land-use options. This
proposal is illustrated with application examples for advanced growth modelling in
tropical forests, a short overview on financial performance analyses for tropical land
uses, and the introduction of a newmodelling approach. Thismodelling approach sees
tropical land management as a financial portfolio of land-use options. Its advantage is
the ability to make transparent effects of financial risk reduction that arise from
mixing forestry and agriculture-based land-use options. The approach thus does not
analyse land uses as stand-alone options, like most other analyses do. The land-use
portfolio modelling shows that sustainable land use may also be financially attractive
for farmers, if abandoned farm lands are reforested (with a native tree species in our
case) and sustainable management in natural forests is carried out. We conclude that
the combination of advanced growth with sound financial modelling may lead to
improved bioeconomic models. Developed bioeconomic models are necessary to
increase the biological realism and acceptability of the results obtained.
Castro, L.M.; Calvas, B.; Hildebrandt, P. & Knoke, T. (2012): Avoiding the loss of shade coffee plantations: how to derive conservation payments for risk-averse land-users. Agroforestry Systems online, online.
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DOI: 10.1007/s10457-012-9554-0
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Abstract:
Abstract:
We usually have only limited knowledge about the economic consequences of land-use decisions, thus they are uncertain. We analyze the implications of this uncertainty on conservation payments (CP) to preserve wildlife-friendly shade coffee production in southwest Ecuador, when conversion to maize is the most profitable alternative. Our objective is twofold: First, we analyze the consequences of
applying Stochastic Dominance (SD) to derive CP, an approach making only minimal assumptions about the preferences of farmers. Second, we investigate the effects of land-use diversification to reduce CP by allowing for shade coffee on part of a landholding, and
maize production on what remains. CP derived by SD turned out to be at least twice the amount calculated by an alternative method which maximizes a concave utility function?US$ 166 to US$ 294 ha-1 year-1 instead of US$ 86 ha-1 year-1. Given this result, we
doubt that the assumptions underlying SD are reasonable for farmers, who are known to be riskaverse. Allowing for land-use diversification has a significant impact on CP. The optimal portfolio share of shade coffee is 27 % and for maize 73 % for
moderately risk-averse farmers?without any CP. A larger share of shade coffee is preferable for strongly risk-averse farmers?51 and 49 % maize. The amount of CP necessary to encourage the expansion of shade coffee to 75 %is US$ 40 ha-1 year-1 (for moderately
risk-averse) and US$ 19 ha-1 year-1 (for strongly risk-averse farmers). Stimulating diversification may thus help to significantly reduce CP necessary to preserve less profitable agroforestry options.
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Keywords: |
Biodiversity conservation |
Agroforestry |
conservation payments |
uncertainty |
diversification |
mean–variance |
stochastic dominance |
Knoke, T.; Weber, M.; Barkmann, J.; Pohle, P.; Calvas, B.; Medina, C.; Aguirre, N.; Günter, S.; Stimm, B.; Mosandl, R.; von Walter, F. & Gerique, A. (2009): EFFECTIVENESS AND DISTRIBUTIONAL IMPACTS OF PAYMENTS FOR REDUCED CARBON EMISSIONS FROM DEFORESTATION. Erdkunde 63, 365-384.
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DOI: 10.3112/erdkunde.2009.04.06
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Abstract:
Abstract:
This paper analyses the effectiveness and distributional effects of payments to avoid tropical deforestation. As a first aspect, we investigated whether or not expected payments for avoided deforestation would be acceptable for tropical farmers in Southern Ecuador, with the study area located directly adjacent to the Podocarpus National Park. Second, we explored possible distributional effects resulting from voluntary or mandatory remuneration schemes to avoid deforestation.
Finally, a productive sustainable land use was conceptualised to be combined with payments for avoided deforestation
to avoid leakage (i.e. deforestation processes elsewhere when avoided at a given farm). Farm level land use scenarios with ("business as usual") and without deforestation ("conservation strategy") were compared. Compensation per Mg Carbon
(C) that is not emitted into the atmosphere under the "conservation strategy" was derived to achieve a monetary land net present value (NPV, sum of discounted future net revenues) equal to the NPV obtained under "business as usual". Avoided carbon emissions were computed from above ground C in tropical forests of the project area and supplemented by information on soil carbon from another study. Economic data for cattle pasturing were obtained from a farm survey (130 households) to investigate distributional effects. To derive sustainable land use concepts, a risk sensitive bioeconomic farm model was used that considered effects of risk compensation when combining pasture with reforestation of abandoned farm lands and selective logging of natural forests. The results showed that only a few farmers (20 out of 130) would possibly accept a compensation price of US$ 10 per Mg avoided C emission, a C-compensation that is believed by other authors to reduce deforestation by 65%. Rather a compensation of around US$ 25 per Mg C was necessary to address compensation requirements of farmers who hold 50% of the tropical forest area in our study. The implementation of a voluntary remuneration scheme for avoided deforestation would not introduce systematic distributional effects (such as that only the biggest farmers would benefit from compensation), while a mandatory and enforced ban on deforestation coupled with a "fair" compensation payment equal to mean compensation requirements may lead to undesirable effects for many farmers.
Finally, we demonstrate a mixed sustainable land use concept that depended on cheap credits for reforestation of abandoned pasture lands. This concept was able to stop farm level deforestation and to enlarge the economic value of farms through
various combined land use options (agricultural and forestry options). The combination of land uses led to risk compensatory effects and a more efficient land use by reintegrating unproductive abandoned areas back into the economical process.
In our conclusion a combination of payments for avoided deforestation along with productive land use concepts provided a viable solution for tropical forest conservation.
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Keywords: |
conservation payments |
carbon storage |
sustainable land use |
tropical forest conservation |
Knoke, T.; Steinbeis, O.; Bösch, M.; Roman-Cuesta, R.M. & Burkhardt, T. (2011): Cost-effective compensation to avoid carbon emissions from forest loss: An approach to consider price?quantity effects and risk-aversion. Ecological Economics 70, 1139-1153.
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DOI: 10.1016/j.ecolecon.2011.01.007
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Abstract:
Abstract:
Analyses were carried out on financial compensation to avoid loss of tropical forests and related carbon (C)
emissions when marginal financial yield declined for land-use options with extended areas, and when a riskaverting
perspective (modeled according to financial theory around the capital asset pricing model) is
assumed. The approach in this study was to consider natural forest, forest plantation, pasture, and cropland
simultaneously to investigate how an optimized land-use distribution may reduce the amount of
compensation necessary to avoid C emissions from forest loss.
The financial compensations derived were as high as US$ 176 per hectare per year when comparing natural
forests only with the most profitable alternative (croplands). However, compensation decreased to US$ 124
for risk-neutral decision-makers, who would strive for optimized land-use allocation, and to only US$ 47 per
hectare per year for risk-avoiders, who would look to maximize the reward-to-variability ratio. Sensitivity
analyses indicated that the compensation under risk-aversion increased much less than under risk-ignoring
when increased productivity of agricultural land-use or growing demand for agricultural products was
simulated. It was concluded that considering appropriate diversification strategies and the well documented
human behavior to avoid risks is an important step in developing cost-effective compensation policies.
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Keywords: |
uncertainty |
risk aversion |
carbon compensation |
land diversification |
financial modeling of land-use shares |
endogeneity of tropical land-use |
indirect land use change (ILUC) |
Knoke, T.; Calvas, B.; Aguirre, N.; Roman-Cuesta, R.M.; Günter, S.; Stimm, B.; Weber, M. & Mosandl, R. (2009): Can tropical farmers reconcile subsistence demands with forest conservation?. Frontiers in Ecology and the Environment 7(10), 548-554.
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DOI: 10.1890/080131
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Abstract:
Abstract:
If tropical farmers cannot be provided with sustainable land-use systems, which address their subsistence
needs and keep them gainfully employed, tropical forests will continue to disappear. We looked at the ability
of economic land-use diversification ? with reforestation of tropical ?wastelands? as a key activity ? to
halt deforestation at the farm level. Our ecological?economic concept, based on land-use data from the
buffer area of the Podocarpus National Park in southern Ecuador, shows that stopping deforestation after 10
years is possible without violating subsistence demands. Tropical, farm-level diversification may not only
reduce total deforestation by 45%, but also increase farmers? profits by 65%, because the formerly unproductive
wastelands have been returned to productive land use. We therefore conclude that a ?win?win? scenario
is possible: the subsistence needs of people can be reconciled with conservation objectives. However,
inexpensive microcredits (at interest rates below 6%) and experience on alternative land-use opportunities
must be offered to farmers.
Knoke, T.; Stimm, B. & Weber, M. (2008): Tropical farmers need productive alternatives. Nature 452, 934.
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DOI: 10.1038/452934b
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Abstract:
Abstract:
SIR ? Your Editorial ?Markets can save forests? proposes integrating deforestation into the international carbon market (Nature 452, 127?128; 2008), but it is unlikely that money alone can solve the problem.
The process of tropical deforestation presents a dilemma: enormous economic value more than US$ 2,000 a year per hectare is lost in favour of small private benefits (often less than US$ 100 a year per hectare). In a true market, an increased, scarcity-signalling price should provide an incentive to boost the supply of the scarce commodity. So far, this has not worked in the case of tropical forests. Real financial flows received for the provision of ecosystem services are vanishingly small, if they exist at all ? only a few beneficiaries have been convinced to pay for environmental services. This illustrates the essentially theoretical character (at least, up till now) of economic values generated by ecosystem services.
Payments for ecosystem services (PES) are supposed to save tropical forests. But even if it were possible to mobilize substantial PES, tropical farmers wouldn?t be prepared to stand by and twiddle their thumbs while receiving these payments to protect the forest. They need a field of activity, so sustainable land-use concepts should address the social environment and needs of people as well. These concepts could be linked and possibly financed by PES.
If the people who use tropical lands are disregarded, we don?t believe that PES will solve the problem of disappearing tropical forests. What is needed is an economic system that keeps people gainfully employed in an activity that is ultimately productive, not destructive.