Relationships between soil, fallow period, weeds and rice yield in slash-and-burn systems of Laos

Röder, W.; Phengchanh, S.; Keoboulapha, B.

doi:10.1007/bf00017672

Cited by 100 publications

(61 citation statements)

References 11 publications

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“…Several studies have demonstrated that land use intensity is not independent of inherent soil quality as farmers adapt land use according to soil quality indicators and use shorter fallow periods on the more fertile land (Aumtong et al 2009;Roder et al 1995). The number of prior cultivation cycles is therefore also likely to be higher on the more fertile land so if the land use history of a given plot is not properly addressed, the effects of fallow length will be even more confounded.…”

Section: Reduced Fallow Periodsmentioning

confidence: 99%

“…In a study from Sarawak, the length of the fallow was linked to post burn levels of plant available N as well as to the yield of upland rice, but no signs of long term degradation of the soil resource and no relation between fallow length and SOC were found (Bruun et al 2006). Finally, a study from Laos found weak correlations between fallow length and contents of SOC and between yield levels and contents of SOC (Roder et al 1995).…”

Section: Reduced Fallow Periodsmentioning

confidence: 99%

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Environmental Consequences of the Demise in Swidden Cultivation in Southeast Asia: Carbon Storage and Soil Quality

et al. 2009

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The effects of swidden cultivation on carbon storage and soil quality are outlined and compared to the effects of the intensified production systems that swidden systems of Southeast Asia transform into. Time-averaged aboveground carbon stocks decline by about 90% if the long fallow periods of traditional swidden cultivation are reduced to 4 years and by about 60% if swidden cultivation is converted to oil palm plantations. Stocks of soil organic carbon (SOC) in tree plantations are 0-40% lower than stocks in swidden cultivation, with the largest losses found in mechanically established oil palm plantations. Impacts of tree plantations on soil quality are to a large extent determined by management. Conversion of swiddening to continuous annual cropping systems brings about substantial losses of time-averaged aboveground carbon stocks, reductions of SOC stocks and generally leads to declining soil quality. Knowledge of carbon storage in belowground biomass of tree based systems of the tropics is sparse but failure to include this pool in carbon inventories may significantly underestimate the total biomass of the systems. Moreover, studies that consider the ecological reasons behind farmers' land use decisions as well as spatial variability in biogeophysical and edaphological parameters are needed to evaluate the effects of the ongoing land use transitions in Southeast Asia.

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Section: Reduced Fallow Periodsmentioning

confidence: 99%

Section: Reduced Fallow Periodsmentioning

confidence: 99%

Environmental Consequences of the Demise in Swidden Cultivation in Southeast Asia: Carbon Storage and Soil Quality

et al. 2009

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“…Many studies have found that land-use is often infl uenced by land features. For example, farmers may choose to cultivate areas with fertile, carbon-rich soils (e.g., Aumtong et al 2009 ;Ellis and Ramankutty 2008 ;Jiao et al 2010 ) or reduce fallow periods when the soil fertility is high (Roder et al 1995 ) and leave forests intact only in areas with poor soils. This preferential selection can make it diffi cult to determine that land-use is in fact causing a change in soil carbon stocks, and not the other way around (soil carbon stocks infl uencing land-use).…”

Section: Timing Of Monitoringmentioning

confidence: 99%

Determining Greenhouse Gas Emissions and Removals Associated with Land-Use and Land-Cover Change

Kearney

Smukler

2016

Methods for Measuring Greenhouse Gas Balances and Evaluating Mitigation Options in Smallholder Agriculture

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This chapter reviews methods and considerations for quantifying greenhouse gas (GHG) emissions and removals associated with changes in land-use and land-cover (LULC) in the context of smallholder agriculture. LULC change contributes a sizeable portion of global anthropogenic GHG emissions, accounting for 12.5 % of carbon emissions from 1990 to 2010 (Biogeosciences 9:5125-5142, 2012). Yet quantifying emissions from LULC change remains one of the most uncertain components in carbon budgeting, particularly in landscapes dominated by smallholder agriculture (Mitig Adapt Strateg Glob Chang 12:1001-1026 Biogeosciences 9:5125-5142, 2012; Glob Chang Biol 18:2089-2101. Current LULC monitoring methodologies are not well-suited for the size of land holdings and the rapid transformations from one land-use to another typically found in smallholder landscapes. In this chapter we propose a suite of methods for estimating the net changes in GHG emissions that specifi cally address the conditions of smallholder agriculture. We present methods encompassing a range of resource requirements and accuracy, and the trade-offs between cost and accuracy are specifi cally discussed. The chapter begins with an introduction to existing protocols, standards, and international reporting guidelines and how they relate to quantifying, analyzing, and reporting GHG emissions and removals from LULC change. We introduce general considerations and methodologies specifi c to smallholder agricultural landscapes for generating activity data, linking it with GHG emission factors and assessing uncertainty. We then provide methodological options, additional considerations, and minimum datasets required to meet the varying levels of reporting accuracy, ranging from low-cost high-uncertainty to high-cost low-uncertainty approaches. Technical step-by-step details for suggested approaches can be found in the associated website.

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“…For example, yield diminishes when soil fertility is degraded after farmers decide to abandon land. A 0 represents the reduced harvest area from " A t because of h Á a, where a denotes the percentage of farmers abandoning land and h is a parameter denoting a decrease in soil fertility as a result of abandonment (Roder 1994;Jordan 1985;Sanchez and Logan 1992;Warner 1991). From an ecological viewpoint, h Á a is the main factor that causes productivity declines and lessened soil fertility.…”

Section: Interviews Of Farmersmentioning

confidence: 99%

Evaluation of agricultural ecosystem services in fallowing land based on farmers’ participation and model simulation

Liu

Chang

Stoorvogel³

et al. 2011

Paddy Water Environ

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Fallowing with green fertilizer can benefit agricultural ecosystem services (AES). Farmers in Taiwan do not implement fallow practices and plant green fertilizer because the current subsidy level (46,000 NT$ per ha) is too low to manage fallowing. This paper defines the objective of government agriculture policy or the farmer's objective as maximization of farm productivity, approximated to the value of social welfare and AES. Farms, which do not follow proper fallowing practices, often have poorly maintained fallow land or left farmland abandoned. This results in negative environmental consequences such as cutworm infestations in abandoned land, which in turn can affect crops in adjacent farmlands. The objectives of this study are twofold. First, it determines the proper fallowing subsidy based on the concept of payment for ecosystem services to entice more farmers to participate in fallowing. Second, it simulates the benefit of planting green manure in fallow land to the supply of AES based on the rate of farmers who are willing to participate in fallow land practices and essential parameters that can affect soil fertility change. The approach involves a series of interviews and a developed empirical model. The value of AES when the rate of farmer participation is 100% represents a 1.5% increase in AES (448,317,000 NT$) over the value at the current participation rate of 14%. This study further concludes that the appropriate fallowing subsidy has a large positive impact on AES and social welfare (e.g., benefit from food and biofuel supplies) and is seen as a basis of ecological governance for sustainable agro-ecosystems.

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Relationships between soil, fallow period, weeds and rice yield in slash-and-burn systems of Laos

Cited by 100 publications

References 11 publications

Environmental Consequences of the Demise in Swidden Cultivation in Southeast Asia: Carbon Storage and Soil Quality

Environmental Consequences of the Demise in Swidden Cultivation in Southeast Asia: Carbon Storage and Soil Quality

Determining Greenhouse Gas Emissions and Removals Associated with Land-Use and Land-Cover Change

Evaluation of agricultural ecosystem services in fallowing land based on farmers’ participation and model simulation

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