A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands

Department of Food and Resource Economics (IFRO)

A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands. / Burian, Alfred; Karaya, Rebecca; Wernersson, Julia E.V.; Egberth, Mikael; Lokorwa, Benjamin; Nyberg, Gert.

In: Environmental Science and Policy, Vol. 92, 2019, p. 323-330.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Burian, A, Karaya, R, Wernersson, JEV, Egberth, M, Lokorwa, B & Nyberg, G 2019, 'A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands', Environmental Science and Policy, vol. 92, pp. 323-330. https://doi.org/10.1016/j.envsci.2018.10.021

APA

Burian, A., Karaya, R., Wernersson, J. E. V., Egberth, M., Lokorwa, B., & Nyberg, G. (2019). A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands. Environmental Science and Policy, 92, 323-330. https://doi.org/10.1016/j.envsci.2018.10.021

Vancouver

Burian A, Karaya R, Wernersson JEV, Egberth M, Lokorwa B, Nyberg G. A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands. Environmental Science and Policy. 2019;92:323-330. https://doi.org/10.1016/j.envsci.2018.10.021

Author

Burian, Alfred ; Karaya, Rebecca ; Wernersson, Julia E.V. ; Egberth, Mikael ; Lokorwa, Benjamin ; Nyberg, Gert. / A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands. In: Environmental Science and Policy. 2019 ; Vol. 92. pp. 323-330.

Bibtex

@article{36b5168007f644b195c22a113352e138,

title = "A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands",

abstract = "Human population growth is considered together with climate warming as major driver of change in Sub-Saharan Africa. Research on the implications of increased population densities often utilises community knowledge but without incorporating the view of local stakeholders. In this study, we applied a community-centred approach to assess direct and indirect consequences of population growth in drylands of north-western Kenya. Combined social, agricultural and geo-spatial analyses allowed us to identify major system transitions, determine their linkage to population growth and deduce consequences for local livelihoods and community resilience. Community-members reported positive and negative consequences of fourfold population growth since 1974 but evaluated its overall effect as clearly beneficial. This overall positive effect was based on both, positive developments and the successful mitigation of potential system stressors. First, food security was maintained despite high growth rates because a shift from migratory pastoralism to a more labour-intensive agro-pastoralist system helped to increase agricultural productivity. Additionally, land-use changes were linked to land privatisation and improved erosion protection on private land, decoupling population growth from environmental degradation. We detected, however also early warning signs of reduced community resilience as households were unable to fully recover livestock densities after catastrophic events. A population-growth driven reduction in household land-sizes and the decreased monetary value of agricultural production were identified as drivers of this development. The extrapolation of our results to establish a general relationship between population densities, land-use and household resilience in Sub-Saharan drylands suggest that further system transformations will be required to ensure regional food-security.",

keywords = "Agriculture, Food security, Land-use change, Population growth, Resilience, Semi-arid, Sub-Saharan Africa",

author = "Alfred Burian and Rebecca Karaya and Wernersson, {Julia E.V.} and Mikael Egberth and Benjamin Lokorwa and Gert Nyberg",

year = "2019",

doi = "10.1016/j.envsci.2018.10.021",

language = "English",

volume = "92",

pages = "323--330",

journal = "Environmental Science & Policy",

issn = "1462-9011",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - A community-based evaluation of population growth and agro-pastoralist resilience in Sub-Saharan drylands

AU - Burian, Alfred

AU - Karaya, Rebecca

AU - Wernersson, Julia E.V.

AU - Egberth, Mikael

AU - Lokorwa, Benjamin

AU - Nyberg, Gert

PY - 2019

Y1 - 2019

N2 - Human population growth is considered together with climate warming as major driver of change in Sub-Saharan Africa. Research on the implications of increased population densities often utilises community knowledge but without incorporating the view of local stakeholders. In this study, we applied a community-centred approach to assess direct and indirect consequences of population growth in drylands of north-western Kenya. Combined social, agricultural and geo-spatial analyses allowed us to identify major system transitions, determine their linkage to population growth and deduce consequences for local livelihoods and community resilience. Community-members reported positive and negative consequences of fourfold population growth since 1974 but evaluated its overall effect as clearly beneficial. This overall positive effect was based on both, positive developments and the successful mitigation of potential system stressors. First, food security was maintained despite high growth rates because a shift from migratory pastoralism to a more labour-intensive agro-pastoralist system helped to increase agricultural productivity. Additionally, land-use changes were linked to land privatisation and improved erosion protection on private land, decoupling population growth from environmental degradation. We detected, however also early warning signs of reduced community resilience as households were unable to fully recover livestock densities after catastrophic events. A population-growth driven reduction in household land-sizes and the decreased monetary value of agricultural production were identified as drivers of this development. The extrapolation of our results to establish a general relationship between population densities, land-use and household resilience in Sub-Saharan drylands suggest that further system transformations will be required to ensure regional food-security.

AB - Human population growth is considered together with climate warming as major driver of change in Sub-Saharan Africa. Research on the implications of increased population densities often utilises community knowledge but without incorporating the view of local stakeholders. In this study, we applied a community-centred approach to assess direct and indirect consequences of population growth in drylands of north-western Kenya. Combined social, agricultural and geo-spatial analyses allowed us to identify major system transitions, determine their linkage to population growth and deduce consequences for local livelihoods and community resilience. Community-members reported positive and negative consequences of fourfold population growth since 1974 but evaluated its overall effect as clearly beneficial. This overall positive effect was based on both, positive developments and the successful mitigation of potential system stressors. First, food security was maintained despite high growth rates because a shift from migratory pastoralism to a more labour-intensive agro-pastoralist system helped to increase agricultural productivity. Additionally, land-use changes were linked to land privatisation and improved erosion protection on private land, decoupling population growth from environmental degradation. We detected, however also early warning signs of reduced community resilience as households were unable to fully recover livestock densities after catastrophic events. A population-growth driven reduction in household land-sizes and the decreased monetary value of agricultural production were identified as drivers of this development. The extrapolation of our results to establish a general relationship between population densities, land-use and household resilience in Sub-Saharan drylands suggest that further system transformations will be required to ensure regional food-security.

KW - Agriculture

KW - Food security

KW - Land-use change

KW - Population growth

KW - Resilience

KW - Semi-arid

KW - Sub-Saharan Africa

U2 - 10.1016/j.envsci.2018.10.021

DO - 10.1016/j.envsci.2018.10.021

M3 - Journal article

AN - SCOPUS:85058408381

VL - 92

SP - 323

EP - 330

JO - Environmental Science & Policy

JF - Environmental Science & Policy

SN - 1462-9011

ER -

ID: 212259407