IFPRI CGIAR
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Who we are

With research staff from more than 60 countries, and offices across the globe, IFPRI provides research-based policy solutions to sustainably reduce poverty and end hunger and malnutrition in developing countries.

researcher spotlight

Kalyani Raghunathan

Kalyani Raghunathan is Research Fellow in the Poverty, Gender, and Inclusion Unit, based in New Delhi, India. Her research lies at the intersection of agriculture, gender, social protection, and public health and nutrition, with a specific focus on South Asia and Africa. 

Where we work

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Where we work

IFPRI currently has more than 600 employees working in over 80 countries with a wide range of local, national, and international partners.

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partnerships

The role of the National Treasury of the Republic of South Africa is to manage South Africa’s national government finances. It facilitates the Division of Revenue Act, which provides for an equitable distribution of nationally raised revenue between national, provincial and local government; and to monitor the implementation of provincial budgets. Its vision includes increasing investment in infrastructure and industrial capital; and improving education and skills development to raise productivity.

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Projects

Southern Africa-Towards Inclusive Economic Development (SA-TIED)

Southern Africa-Towards Inclusive Economic Development (SA-TIED)

Publications

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Book Chapter

Building back fairer from the COVID-19 pandemic in South Africa

2023Arndt, Channing; Davies, Robert J.; Gabriel, Sherwin; Harris, Lawrence; Sachs, Michael
Details

Building back fairer from the COVID-19 pandemic in South Africa

On 27 August 2019, National Treasury released a document titled ‘Economic transformation, inclusive growth, and competitiveness: A contribution towards a growth agenda for the South African economy’. Perhaps as a response to the long title, the document became popularly known as “the 77-pager”. No document that proposes a substantial reform economic programme is universally embraced; however, the 77-pager did receive some important plaudits. For example, The Economist magazine described it as “replete with sensible ideas that could form the basis of a new ‘growth strategy’” (The Economist 2019). National Treasury (2019) estimated that the proposed reforms would, following implementation, raise potential growth by 2.3 percentage points (above the baseline) and create over 1 million additional jobs.

Year published

2023

Authors

Arndt, Channing; Davies, Robert J.; Gabriel, Sherwin; Harris, Lawrence; Sachs, Michael

Citation

Arndt, Channing; Davies, Robert J.; Gabriel, Sherwin; Harris, Lawrence; and Sachs, Michael. 2023. Building back fairer from the COVID-19 pandemic in South Africa. In Unlocking Growth Prospects in Post-Pandemic South Africa: A Compilation of Working Papers Looking at Ways to Restore and Accelerate Economic Growth in South Africa, eds. Christopher Loewald and Matthew Stern. Chapter 5, Pp. 132-152. https://www.resbank.co.za/content/dam/sarb/what-we-do/research/UNLOCKING%20GROWTH%20PROSPECTS%20FINAL%20050423.pdf

Country/Region

South Africa

Keywords

Africa; Southern Africa; Coronavirus; Coronavirus Disease; Coronavirinae; Covid-19; Policies; Economic Growth; Food Systems; Nutrition; Health; Urban Development

Language

English

Access/Licence

Open Access

Source

Source record

Project

Foresight

Record type

Book Chapter

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Journal Article

The changing nature of hydroclimatic risks across South Africa

2021Schlosser, Adam; Sokolov, Andrei; Strzepek, Kenneth M.; Thomas, Timothy S.; Gao, Xiang; Arndt, Channing
Details

The changing nature of hydroclimatic risks across South Africa

We present results from large ensembles of projected twenty-first century changes in seasonal precipitation and near-surface air temperature for the nation of South Africa. These ensembles are a result of combining Monte Carlo projections from a human-Earth system model of intermediate complexity with pattern-scaled responses from climate models of the Coupled Model Intercomparison Project Phase 5 (CMIP5). These future ensemble scenarios consider a range of global actions to abate emissions through the twenty-first century. We evaluate distributions of surface-air temperature and precipitation change over three sub-national regions: western, central, and eastern South Africa. In all regions, we find that without any emissions or climate targets in place, there is a greater than 50% likelihood that mid-century temperatures will increase threefold over the current climate’s two-standard deviation range of variability. However, scenarios that consider more aggressive climate targets all but eliminate the risk of these salient temperature increases. A preponderance of risk toward decreased precipitation (3 to 4 times higher than increased) exists for western and central South Africa. Strong climate targets abate evolving regional hydroclimatic risks. Under a target to limit global climate warming to 1.5 °C by 2100, the risk of precipitation changes within South Africa toward the end of this century (2065–2074) is commensurate to the risk during the 2030s without any global climate target. Thus, these regional hydroclimate risks over South Africa could be delayed by 30 years and, in doing so, provide invaluable lead-time for national efforts to prepare, fortify, and/or adapt.

Year published

2021

Authors

Schlosser, Adam; Sokolov, Andrei; Strzepek, Kenneth M.; Thomas, Timothy S.; Gao, Xiang; Arndt, Channing

Citation

Schlosser, Adam; Sokolov, Andrei; Strzepek Ken; Thomas, Timothy S.; Gao, Xiang; and Arndt, Channing. 2021. The changing nature of hydroclimatic risks across South Africa. Climatic Change 168: 28. https://doi.org/10.1007/s10584-021-03235-5

Country/Region

South Africa

Keywords

Sub-saharan Africa; Africa; Southern Africa; Hydroclimatology; Modelling; Precipitation; Climate Change Mitigation; Temperature; Risk; Seasonality; Climate Change

Language

English

Access/Licence

Open AccessCC-BY-4.0

Links

https://doi.org/10.1007/s10584-021-03235-5 Source record

Project

Policies, Institutions, and Markets

Record type

Journal Article

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Report

The changing nature of hydroclimatic risks across South Africa

2020Schlosser, Adam; Sokolov, Andrei; Strzepek, Kenneth M.; Thomas, Timothy S.; Gao, Xiang; Arndt, Channing
Details

The changing nature of hydroclimatic risks across South Africa

In this study, we present results from a large ensemble of projected changes in seasonal precipitation and near-surface air temperature changes for the nation of South Africa. The ensemble is based on a combination of pattern-change responses derived from the Coupled Model Intercomparison Project Phase 5 (CMIP-5) climate models along with the Massachusetts Institute of Technology Integrated Global Systems Model (MIT-IGSM), an intermediate complexity earth-system model coupled to a global economic model that evaluates uncertainty in socio-economic growth, anthropogenic emissions, and global environmental response. Numerical experimentation with the MIT-IGSM considered four scenarios of future climate and socio-economic development to span a range of possible global actions to abate greenhouse gas emissions through the 21st century. We evaluate distributions of surface-air temperature and precipitation change over three regions across South Africa: western (WSoAfr), central (CSoAfr), and eastern (ESoAfr) South Africa. In all regions, by mid-century, we find a strong likelihood (greater than 50%) that temperatures will rise considerably higher than the current climate’s range of variability (a threefold increase over the current climate’s two-standard deviation range of variability). In addition, scenarios that consider more aggressive global climate targets (e.g. 2C and 15C scenarios) all but eliminate the risk of these acutely salient temperature increases. For precipitation, there is a preponderance of risk toward decreased precipitation (3 to 4 times higher than increased) for western and central parts of South Africa. There is a clear benefit seen within the evolving hydroclimatic risks as a result of strong climate targets, such as limiting the global climate warming to 1.5˚C by 2100. We find that the risk of precipitation changes in the 15C scenario toward the end of this century (2065–2074) is nearly identical to that seen in the REF scenario during the 2030s. Thus, the climate risk that may be experienced in a decade as a result of current global actions to reduce emissions could be delayed by 30 years, and would provide invaluable lead-time for national efforts to be put in place to prepare, fortify, and/or adapt to these changing environments of risk.

Year published

2020

Authors

Schlosser, Adam; Sokolov, Andrei; Strzepek, Kenneth M.; Thomas, Timothy S.; Gao, Xiang; Arndt, Channing

Citation

Schlosser, C. Adam; Sokolov, Andrei; Strzepek, Ken; Thomas, Tim; Gao, Xiang; and Arndt, Channing. 2020. The changing nature of hydroclimatic risks across South Africa. Joint Program Report Series 342. Cambridge, MA: MIT Joint Program on the Science and Policy of Global Change. https://globalchange.mit.edu/publication/17483

Keywords

Africa; Sub-saharan Africa; Southern Africa; Models; Seasonal Variation; Precipitation; Temperature; Risk; Seasonality; Climate Change

Language

English

Access/Licence

Open Access

Source

Source record

Project

Policies, Institutions, and Markets

Record type

Report