Forests, farms, and fallows: The dynamics of tree cover transition in the southern part of the uluguru mountains, tanzania

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Forests, farms, and fallows: The dynamics of tree cover transition in the southern part of the uluguru mountains, tanzania. / Mpanda, Mathew; Kashindye, Almas; Aynekulu, Ermias et al.
In: Land, Vol. 10, No. 6, 571, 28.05.2021.

Research output: Journal contributionsJournal articlesResearchpeer-review

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Mpanda M, Kashindye A, Aynekulu E, Jonas E, Rosenstock TS, Giliba RA. Forests, farms, and fallows: The dynamics of tree cover transition in the southern part of the uluguru mountains, tanzania. Land. 2021 May 28;10(6):571. doi: 10.3390/land10060571

Bibtex

@article{619d6b3136344517bb539c48e4bb61bf,
title = "Forests, farms, and fallows: The dynamics of tree cover transition in the southern part of the uluguru mountains, tanzania",
abstract = "Forests and woodlands remain under threat in tropical Africa due to excessive exploitation and inadequate management interventions, and the isolated success stories of tree retention and tree cover transition on African agricultural land are less well documented. In this study, we characterize the status of tree cover in a landscape that contains forest patches, fallows, and farms in the southern part of Uluguru Mountains. We aimed to unveil the practices of traditional tree fallow system which is socially acceptable in local settings and how it provides a buffering effects to minimize forest disturbances and thus represents an important step towards tree cover transition. We assessed land cover dynamics for the period of 1995 to 2020 and compared tree stocking for forest patches, fallows, and farms. We found that tree biomass carbon stocks were 56 ± 5 t/ha in forest patches, 33 ± 7 t/ha in fallows, and 9 ± 2 t/ha on farms. In terms of land cover, farms shrank at intensifying rates over time for the entire assessment period of 1995–2020. Forest cover decreased from 1995–2014, with the reduction rate slowing from 2007–2014 and the trend reversing from 2014–2020, such that forest cover showed a net increase across the entire study period. Fallow consistently and progressively increased from 1995–2020. We conclude that traditional tree fallows in the study site remain a significant element of land management practice among communities, and there appears to be a trend towards intensified tree-based farming. The gains in fallowed land represent an embracing of a traditional land management system that supports rotational and alternate uses of cropping space as well as providing a buffering effect to limit over-exploitation of forests. In order to maximize tree cover and carbon stocks in the farm landscape, this well-known traditional tree fallow system can be further optimized through the incorporation of additional innovations.",
keywords = "Deforestation, Shifting cultivation, Swiddens, Traditional fallow, Biology, Ecosystems Research, Environmental planning",
author = "Mathew Mpanda and Almas Kashindye and Ermias Aynekulu and Elvis Jonas and Rosenstock, {Todd S.} and Giliba, {Richard A.}",
note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",
year = "2021",
month = may,
day = "28",
doi = "10.3390/land10060571",
language = "English",
volume = "10",
journal = "Land",
issn = "2073-445X",
publisher = "MDPI AG",
number = "6",

}

RIS

TY - JOUR

T1 - Forests, farms, and fallows

T2 - The dynamics of tree cover transition in the southern part of the uluguru mountains, tanzania

AU - Mpanda, Mathew

AU - Kashindye, Almas

AU - Aynekulu, Ermias

AU - Jonas, Elvis

AU - Rosenstock, Todd S.

AU - Giliba, Richard A.

N1 - Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/5/28

Y1 - 2021/5/28

N2 - Forests and woodlands remain under threat in tropical Africa due to excessive exploitation and inadequate management interventions, and the isolated success stories of tree retention and tree cover transition on African agricultural land are less well documented. In this study, we characterize the status of tree cover in a landscape that contains forest patches, fallows, and farms in the southern part of Uluguru Mountains. We aimed to unveil the practices of traditional tree fallow system which is socially acceptable in local settings and how it provides a buffering effects to minimize forest disturbances and thus represents an important step towards tree cover transition. We assessed land cover dynamics for the period of 1995 to 2020 and compared tree stocking for forest patches, fallows, and farms. We found that tree biomass carbon stocks were 56 ± 5 t/ha in forest patches, 33 ± 7 t/ha in fallows, and 9 ± 2 t/ha on farms. In terms of land cover, farms shrank at intensifying rates over time for the entire assessment period of 1995–2020. Forest cover decreased from 1995–2014, with the reduction rate slowing from 2007–2014 and the trend reversing from 2014–2020, such that forest cover showed a net increase across the entire study period. Fallow consistently and progressively increased from 1995–2020. We conclude that traditional tree fallows in the study site remain a significant element of land management practice among communities, and there appears to be a trend towards intensified tree-based farming. The gains in fallowed land represent an embracing of a traditional land management system that supports rotational and alternate uses of cropping space as well as providing a buffering effect to limit over-exploitation of forests. In order to maximize tree cover and carbon stocks in the farm landscape, this well-known traditional tree fallow system can be further optimized through the incorporation of additional innovations.

AB - Forests and woodlands remain under threat in tropical Africa due to excessive exploitation and inadequate management interventions, and the isolated success stories of tree retention and tree cover transition on African agricultural land are less well documented. In this study, we characterize the status of tree cover in a landscape that contains forest patches, fallows, and farms in the southern part of Uluguru Mountains. We aimed to unveil the practices of traditional tree fallow system which is socially acceptable in local settings and how it provides a buffering effects to minimize forest disturbances and thus represents an important step towards tree cover transition. We assessed land cover dynamics for the period of 1995 to 2020 and compared tree stocking for forest patches, fallows, and farms. We found that tree biomass carbon stocks were 56 ± 5 t/ha in forest patches, 33 ± 7 t/ha in fallows, and 9 ± 2 t/ha on farms. In terms of land cover, farms shrank at intensifying rates over time for the entire assessment period of 1995–2020. Forest cover decreased from 1995–2014, with the reduction rate slowing from 2007–2014 and the trend reversing from 2014–2020, such that forest cover showed a net increase across the entire study period. Fallow consistently and progressively increased from 1995–2020. We conclude that traditional tree fallows in the study site remain a significant element of land management practice among communities, and there appears to be a trend towards intensified tree-based farming. The gains in fallowed land represent an embracing of a traditional land management system that supports rotational and alternate uses of cropping space as well as providing a buffering effect to limit over-exploitation of forests. In order to maximize tree cover and carbon stocks in the farm landscape, this well-known traditional tree fallow system can be further optimized through the incorporation of additional innovations.

KW - Deforestation

KW - Shifting cultivation

KW - Swiddens

KW - Traditional fallow

KW - Biology

KW - Ecosystems Research

KW - Environmental planning

UR - http://www.scopus.com/inward/record.url?scp=85107880162&partnerID=8YFLogxK

U2 - 10.3390/land10060571

DO - 10.3390/land10060571

M3 - Journal articles

AN - SCOPUS:85107880162

VL - 10

JO - Land

JF - Land

SN - 2073-445X

IS - 6

M1 - 571

ER -

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