scholarly journals The Role of Biochar in Ameliorating Disturbed Soils and Sequestering Soil Carbon in Tropical Agricultural Production Systems

2013 ◽  
Vol 2013 ◽  
pp. 1-10 ◽  
Author(s):  
Wolde Mekuria ◽  
Andrew Noble
Keyword(s):  
Soil Carbon ◽  
Land Management ◽  
Cover Crops ◽  
Carbon Stock ◽  
Large Scale ◽  
Management Practices ◽  
Smallholder Farmers ◽  
Grey Literature ◽  
Resource Constrained ◽  
The Tropics

Agricultural soils in the tropics have undergone significant declines in their native carbon stock through the long-term use of extractive farming practices. However, these soils have significant capacity to sequester CO2through the implementation of improved land management practices. This paper reviews the published and grey literature related to the influence of improved land management practices on soil carbon stock in the tropics. The review suggests that the implementation of improved land management practices such as crop rotation, no-till, cover crops, mulches, compost, or manure can be effective in enhancing soil organic carbon pool and agricultural productivity in the tropics. The benefits of such amendments were, however, often short-lived, and the added organic matters were usually mineralized to CO2within a few cropping seasons leading to large-scale leakage. We found that management of black carbon (C), increasingly referred to as biochar, may overcome some of those limitations and provide an additional soil management option. Under present circumstances, recommended crop and land management practices are inappropriate for the vast majority of resource constrained smallholder farmers and farming systems. We argue that expanding the use of biochar in agricultural lands would be important for sequestering atmospheric CO2and mitigating climate change, while implementing the recommended crop and land management practices in selected areas where the smallholder farmers are not resource constrained.

scholarly journals Precision Agriculture for Resource Use Efficiency in Smallholder Farming Systems in Sub-Saharan Africa: A Systematic Review

2021 ◽  
Vol 13 (3) ◽  
pp. 1158
Author(s):  
Cecilia M. Onyango ◽  
Justine M. Nyaga ◽  
Johanna Wetterlind ◽  
Mats Söderström ◽  
Kristin Piikki
Keyword(s):  
Resource Use ◽  
Precision Agriculture ◽  
Large Scale ◽  
English Language ◽  
Management Practices ◽  
Smallholder Farmers ◽  
Management Strategies ◽  
Sub Saharan Africa ◽  
Smallholder Farming ◽  
Sub Saharan

Opportunities exist for adoption of precision agriculture technologies in all parts of the world. The form of precision agriculture may vary from region to region depending on technologies available, knowledge levels and mindsets. The current review examined research articles in the English language on precision agriculture practices for increased productivity among smallholder farmers in Sub-Saharan Africa. A total of 7715 articles were retrieved and after screening 128 were reviewed. The results indicate that a number of precision agriculture technologies have been tested under SSA conditions and show promising results. The most promising precision agriculture technologies identified were the use of soil and plant sensors for nutrient and water management, as well as use of satellite imagery, GIS and crop-soil simulation models for site-specific management. These technologies have been shown to be crucial in attainment of appropriate management strategies in terms of efficiency and effectiveness of resource use in SSA. These technologies are important in supporting sustainable agricultural development. Most of these technologies are, however, at the experimental stage, with only South Africa having applied them mainly in large-scale commercial farms. It is concluded that increased precision in input and management practices among SSA smallholder farmers can significantly improve productivity even without extra use of inputs.

Mapping and comparing the distribution of soil carbon under cropping and grazing management practices in Narrabri, north-west New South Wales

Soil Research ◽  
2010 ◽  
Vol 48 (3) ◽  
pp. 248 ◽  
Author(s):  
Matthew Miklos ◽  
Michael G. Short ◽  
Alex B. McBratney ◽  
Budiman Minasny
Keyword(s):  
Soil Carbon ◽  
Spatial Resolution ◽  
Carbon Stock ◽  
Management Practices ◽  
Inorganic Carbon ◽  
High Spatial Resolution ◽  
New South ◽  
New South Wales ◽  
South Wales ◽  
Fine Resolution

The reliable assessment of soil carbon stock is of key importance for soil conservation and mitigation strategies related to reducing atmospheric carbon. Measuring and monitoring soil carbon is complex because carbon pools cycle and rates of carbon sequestration vary across the landscape due to climate, soil type, and management practices. A new methodology has been developed and applied to make an assessment of the distribution of total, organic, and inorganic carbon at a grains research and grazing property in northern New South Wales at a high spatial resolution. In this study, baseline soil carbon maps were created using fine resolution, geo-referenced, proximal sensor data. Coupled with a digital elevation model and secondary terrain attributes, all of the data layers were combined by k-means clustering to develop a stratified random soil sampling scheme for the survey area. Soil samples taken at 0.15-m increments to a depth of 1 m were scanned with a mid-infrared spectrometer, which was calibrated using a proportion of the samples that were analysed in a laboratory for total carbon and inorganic carbon content. This combination of new methodologies and technologies has the potential to provide large volumes of reliable, fine resolution and timely data required to make baseline assessments, mapping, monitoring, and verification possible. This method has the potential to make soil carbon management and trading at the farm-scale possible by quantifying the carbon stock to a depth of 1 m and at a high spatial resolution.

Blueprints for Tropical Dairy Farming

2017 ◽  
Author(s):  
John Moran ◽  
Philip Chamberlain
Keyword(s):  
Developing Countries ◽  
Best Management Practices ◽  
Large Scale ◽  
Management Practices ◽  
Production Systems ◽  
Dairy Farming ◽  
Dairy Herds ◽  
Dairy Production ◽  
Wide Range ◽  
The Tropics

Blueprints for Tropical Dairy Farming provides insight into the logistics, infrastructure and management required for the development of small and large dairy farms in tropical developing countries. Farmers will learn how to improve the welfare, milk quality and productivity of their dairy herds. This book complements author John Moran’s five previous books on the principles of tropical dairy farming. The manual covers a wide range of topics related to ensuring the sustainability of dairy production systems in tropical developing countries, such as South and East Asia, Africa and Central America. It also provides guidelines for the best management practices of large-scale, more intensive dairy systems. While smallholder farms are the major suppliers of milk in the tropics, many larger farms are becoming established throughout the tropics to satisfy the increasing demands for fresh milk. Blueprints for Tropical Dairy Farming will be a valuable resource for farmers and stockpeople who want to improve the productive performance of their dairy herds, farm advisers who can assist farmers to achieve this aim, educators who develop training programs for farmers or who train dairy advisers in the basics of dairy production technology, and other stakeholders in tropical dairy production, such as local agribusiness, policy makers and research scientists. National and international agencies will learn new insights into the required long-term logistics for regional dairy development, while potential investors will acquire knowledge into intensive tropical dairy farming.

scholarly journals Pesticide use and biodiversity conservation in the Amazonian agricultural frontier

2013 ◽  
Vol 368 (1619) ◽  
pp. 20120378 ◽  
Author(s):  
Luis Schiesari ◽  
Andrea Waichman ◽  
Theo Brock ◽  
Cristina Adams ◽  
Britta Grillitsch
Keyword(s):  
Land Management ◽  
Ecological Footprint ◽  
Large Scale ◽  
Management Practices ◽  
Dynamic Environments ◽  
Intergovernmental Organizations ◽  
Pesticide Use ◽  
Agricultural Industries ◽  
Hazardous Compounds ◽  
Technical Recommendations

Agricultural frontiers are dynamic environments characterized by the conversion of native habitats to agriculture. Because they are currently concentrated in diverse tropical habitats, agricultural frontiers are areas where the largest number of species is exposed to hazardous land management practices, including pesticide use. Focusing on the Amazonian frontier, we show that producers have varying access to resources, knowledge, control and reward mechanisms to improve land management practices. With poor education and no technical support, pesticide use by smallholders sharply deviated from agronomical recommendations, tending to overutilization of hazardous compounds. By contrast, with higher levels of technical expertise and resources, and aiming at more restrictive markets, large-scale producers adhered more closely to technical recommendations and even voluntarily replaced more hazardous compounds. However, the ecological footprint increased significantly over time because of increased dosage or because formulations that are less toxic to humans may be more toxic to other biodiversity. Frontier regions appear to be unique in terms of the conflicts between production and conservation, and the necessary pesticide risk management and risk reduction can only be achieved through responsibility-sharing by diverse stakeholders, including governmental and intergovernmental organizations, NGOs, financial institutions, pesticide and agricultural industries, producers, academia and consumers.

scholarly journals Changes in soil carbon stock in Mewat and Dhar under cereal and legume based cropping systems

2019 ◽  
Author(s):  
B. Chakrabarti ◽  
S.K. Bandyopadhyay ◽  
D. Pratap ◽  
H. Pathak ◽  
R. Mittal ◽  
...  
Keyword(s):  
Soil Carbon ◽  
Carbon Stock ◽  
Management Practices ◽  
Surface Soil ◽  
Cropping Systems ◽  
Soil Layer ◽  
Cropping System ◽  
Soil Carbon Stock ◽  
Cropping Sequence ◽  
Surface Soil Layer

Soil organic carbon is strongly affected by agricultural management practices. Cropping systems can influence the amount of carbon present in soil. Increase in SOC can be related with the choice of crops present in the cropping sequence as well as on the management practices followed. The present study was undertaken to quantify the changes in soil carbon stock under different cropping systems. Two major cropping systems i.e. pearlmillet-wheat and pearlmillet-mustard were selected in Mewat, Haryana while soybean-wheat cropping systems was identified in Dhar, Madhya Pradesh. Results showed that SOC of surface soil layer decreased from 0.42% to 0.39% in pearlmillet-mustard cropping system during the study period. But in soybean-wheat cropping system it increased from 1.14% to 1.24%. Legume based cropping system showed enhancement of surface soil carbon.

scholarly journals Does Information Acquisition Influence the Adoption of Sustainable Land Management Practices? Evidence From Mpumalanga Province South Africa

2021 ◽  
Vol 5 ◽  
Author(s):  
Oluwaseun Samuel Oduniyi ◽  
Sibongile Sylvia Tekana
Keyword(s):  
South Africa ◽  
Land Management ◽  
Information Acquisition ◽  
Management Practices ◽  
Smallholder Farmers ◽  
Sampling Technique ◽  
Primary Data ◽  
Sustainable Land Management ◽  
Bivariate Probit ◽  
Mpumalanga Province

Agricultural information plays a vital role in adopting agricultural technology. The study explored if information acquisition is related to the adoption of sustainable land management practices (SLMP) and jointly decided in Mpumalanga Province of South Africa. Primary data were collected through face-to-face interviews, using a proportionate random sampling technique to get 250 smallholder farmers to participate in the survey. A seemingly unrelated bivariate probit (SUBP) model and a recursive bivariate probit (RBP) model were adopted to examine the objective. The statistical estimation of the SUBP showed that there is a relationship, an empirical association between information acquisition and SLMP; while RBP estimation showed that information acquisition was exogenous in the adoption model; thus, the decision to acquire information and adopt SLMP was not jointly decided. Therefore, the study presents the determinants of information acquisition alongside with the adoption of SLPM. The result from the SUBP model, indicated that the years spent in school; agricultural extension service; the number of extension visits and the years of farming, influenced both information acquisition and the adoption of SLMP. The cost attached positively influenced the adoption of SLMP; while gender, marital status and age only influenced the information acquisition.

Incentivising peatland restoration and rewetting actions through a result-based EU carbon farming mechanism

2021 ◽  
Author(s):  
Asger Strange Olesen ◽  
Sarah Pyndt Andersen
Keyword(s):  
Carbon Cycle ◽  
Land Management ◽  
Carbon Stock ◽  
Management Practices ◽  
Ghg Emissions ◽  
Climate Mitigation ◽  
Emission Sources ◽  
Carbon Credit ◽  
Peatland Restoration ◽  
The Eu

<p>Intact peatland plays an important role for the carbon cycle, climate mitigation and provision of ecosystems services due to their role as a permanent water-locked carbon stock and ongoing sink. However, years of unsustainable land management practices have resulted in degradation of peatlands in the EU and around 220 Mt CO₂ eq. are emitted in the EU per year[1] from peatland drainage alone. New approaches to peatland restoration and rewetting are being explored to ensure effective and efficient climate actions. Learning from and building on already operational sub-national and national result-based payment peatland mechanism and programmes, this study provides recommendations on designing and operating an effective and efficient result-based carbon farming peatland mechanism in the EU. The findings suggest that a results-based carbon farming mechanism offers a promising way to incentivise, e.g. governments, authorities and farmers to develop and implement peatland restoration and rewetting projects. Results-based mechanisms provide new and additional sources of finance to counter high upfront restoration costs, as well as provide an opportunity to valorise GHG emissions from large, geographically confined emission sources based on current carbon credit prices.</p><div> <div> <p>[1] Source: Grifswald Mire Centre (2019). https://www.greifswaldmoor.de/files/dokumente/Infopapiere_Briefings/202003_CAP%20Policy%20Brief%20Peatlands%20in%20the%20new%20EU%20Version%204.8.pdf</p> </div> </div>

Applying the climatic water balance to the Volta basin as an accounting framework to aid policy makers in understanding climate pressures on the water-energy-food (W-E-F) nexus

2020 ◽  
Author(s):  
Nathan Forsythe ◽  
David Pritchard ◽  
Hayley Fowler
Keyword(s):  
Sustainable Development ◽  
Water Balance ◽  
Land Management ◽  
Large Scale ◽  
Management Practices ◽  
Spatial Scales ◽  
Policy Makers ◽  
Volta Basin ◽  
Trade Offs ◽  
Moisture Supply

<p>The multinational FutureDAMS consortium -- funded by the UK's Global Challenges Research Fund -- is working to improve the design, selection and operation of dams to support sustainable development. Existing and planned large water storage infrastructure systems have the potential to make a significant contribution towards achieving the Sustainable Development Goals and Paris climate change commitments. But maximising the benefits while minimising the negative social and environmental impacts of large-scale infrastructure in the river basins comprising the multifunctional cores of the Water-Energy-Food (WEF) nexus remains a challenge. One critical aspect of this challenge is the difficulty of achieving uptake of scientific guidance by policy makers and other influential stakeholders.</p><p>The climatic water balance (CWB), i.e. precipitation minus potential evapotranspiration, provides a methodological framework for understanding moisture supply-demand equilibrium at a range of spatial scales including those relevant to land management – administrative districts and tributary watersheds – within basins. The CWB framework understood as an accounting analogy – i.e. rainfall as income, evapotranspiration as expenditure – can be comprehensible to scientific lay persons and help to understand the climate pressures which constrain WEF resource management. Viewed through a CWB framework, rural lands are critical both as determinants of rainfall partitioning between runoff and infiltration as well as areas of consumptive water usage for food production. Runoff entering engineered river systems becomes available for satisfying water supply and (hydropower) energy demands. As a transboundary river basin in a region experiencing substantial demographic growth and with strong aspirations for rapid economic development, inter-sectoral tensions are likely as Volta basin decision makers and economic actors seek to satisfy elements of the W-E-F nexus. By quantifying spatiotemporal moisture supply-demand balance conditions the CWB can provide valuable information to quantify trade-offs and potential synergies resulting from land management practices, infrastructure development and water allocation policies.</p><p>In this work we will examine point/site-based values and spatial aggregates of CWB for a range of locations and scales within the larger Volta basin. For each case we will identify key WEF issues which are influenced by the CWB as well as stakeholders whose decision-making processes could be informed by insights derived from the CWB (accounting) framework.</p>

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