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Kyuma R.*, Wahome R., Kinama J. and Wasonga V. O. *Corresponding Author: Kyuma R., Email: [email protected] or [email protected] The effects of climate variability on Prosopis juliflora spread, vegetation trends and livestock dynamics in the drylands of Kenya
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Page 1: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Kyuma R.*, Wahome R., Kinama J. and Wasonga V. O.*Corresponding Author: Kyuma R., Email: [email protected] or [email protected]

The effects of climate variability on Prosopis juliflora spread, vegetation trends and livestock dynamics in

the drylands of Kenya

Page 2: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Introduction• Prosopis was introduced in Africa in the 1820s and

in Kenya in the 1970’s and 1980’s

• Prosopis juliflora (Sw.) DC has been aggressively taking over grazing lands in pastoral areas

• Efforts to eradicate it have not succeeded anywhere in the world.

• Due to its very hardiness and versatility, it grows fast in dry degraded lands and wastelands

Page 3: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Prosopis Juliflora – an aggressive invaderIt forms impenetrable thickets if not well managed

Page 4: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

4

It is evergreen

It is a prolific producer

Page 5: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Problem statement• The relationships between climate variability and

Prosopis invasion on pastoral livestock production systems and livelihoods is not well understood.

Justification• There is no evidence that Prosopis spread patterns

are related to climate variability and how that in turn affects vegetation trends and livestock population dynamics in the ASALs.

Objective• To determine the effect of climate variability on

Prosopis spread patterns, other vegetation trends and livestock population dynamics

Page 6: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Materials and methods

Page 7: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Magadi

SHOMPOLE

OLKIRAMATIAN

MAGADI

OLDONYO-NYOIKE

36°30'0"E

36°30'0"E

36°20'0"E

36°20'0"E

36°10'0"E

36°10'0"E

36°0'0"E

36°0'0"E

1°40'0"S 1°40'0"S

1°50'0"S 1°50'0"S

2°0'0"S 2°0'0"S

2°10'0"S 2°10'0"S

Legend

Magadi Locations

L. Magadi

0 10 205 KM

WAJIR

TURKANA

MARSABIT

KITUI

GARISSA

ISIOLO

TANA RIVER

MANDERA

NAROK

KAJIADO

KILIFI

SAMBURU

TAITA TAVETA

BARINGO

KWALE

LAMU

WEST POKOT

Legend

L. Magadi

Magadi Locations

Dryland Counties with Prosopis

Kenya Boundary

0 140 28070 KM

Study site – Magadi Division of Kajiado County - Kenya

Represents about 8% of the drylands of Kenya affected by Prosopis.

Located in the southern rangelands; lowland agroecological zone

Two landscape types were delineated (plains and hillslopes)

Page 8: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Materials and methods Cont’dData types and sources

• Time series rainfall and temperature data were extracted from the climate data collected from meteorological stations climate data for 20 years

• Vegetation and Prosopis productivity data was derived from the Terra MODIS (250m) series vegetation indices Normalized Difference Vegetation Index (NDVI) satellite data

• NDVI data was downloaded from the ENDELEO website (http://endeleo.vgt.vito.be/),

• Livestock population data was collected and collated from livestock offices – Magadi and Kajiado and KNBS

Page 9: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

GIS and remote sensing methods of vegetation biomass estimations

• MODIS (250m) satellite derived NDVI images were used to establish the spread patterns of Prosopis in the area.

• The 250m NDVI images were used to identify the vegetation types which were photosynthetically active during the drought periods.

• These vegetation types were most likely Prosopis plants.

Page 10: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

GIS and remote sensing methods cont’d

• Participatory mapping of Prosopis clusters using community opinion leaders was done and focused group discussions were used in the plains and the hillslopes landscapes.

• Land cover and land use data, soil data, GPS data, GIS databases were used to identify areas with the suitability characteristics for Prosopis to thrive.

• The disappearance of other plant species was tracked using NDVI from MODIS (250m) satellite images, land use, land cover soil data and GPS data.

Page 11: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Data Analysis

• Monthly total rainfall and average temperature trends for 20 years were established using Ms. Excel

• Vegetation and Prosopis productivity (NDVI) for the plains and hillslopes (2000 – 2014) for the dry seasons’ trends were established

• Livestock population trends (20 years) was established

Page 12: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Data analysis

• Comparisons and relationships of the trends was done in the plains and the hillslopes landscapes

• Correlation coefficients were determined for the relationships between rainfall and temperature, Prosopis spread patterns, other vegetation cover trends and livestock population.

Page 13: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

ResultsAnnual rainfall totals trend in Magadi, Kajiado

Monthly rainfall totals in Magadi, Kajiado

Page 14: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Annual average temperatures in Magadi, Kajiado

Page 15: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Land cover change trends (1987-2008).

Prosopis invasion in 2014

Page 16: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Olkiramatian plains short dry season (January to February) Prosopis NDVI trends

Olkiramatian plains long dry season (June to September) Prosopis NDVI trends

Page 17: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Ngurumani hill slopes short dry season (January to February) Prosopis NDVI trends

Ngurumani hill slopes long dry season (June to September) Prosopis NDVI trends

Page 18: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Olkiramatian all vegetation short dry season (January to February) NDVI trends

Olkiramatian all vegetation long dry season (June to September) NDVI trends

Page 19: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Ngurumani all vegetation short dry season (January to February) NDVI trends

Ngurumani all vegetation long dry season (June to September) NDVI trends

Page 20: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Short dry season maximum NDVI comparisons

Long dry season maximum NDVI comparisons

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Olkiramatian location livestock population trends

Page 22: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Conclusions• The study revealed decreasing and variable rainfall

amounts and patterns; and an increase in mean annual temperatures in the study area

• vegetation cover was noted to decline especially during the long dry seasons when livestock feed supply is limited

• Prosopis cover was increasing during the same period. The cattle populations were also on the decline over a 20 year period while the sheep and goats populations were on the increase.

Page 23: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

Recommendations

• It is recommended that viable Prosopis utilization options be explored to take advantage of the highly adaptable Prosopis to climate variability.

• The economics of Prosopis pods and Prosopis carbon stocks as an alternative source of animal feeds and Prosopis based carbon trade need further studies.

Page 24: Effect of climate variability on prosopis spread, vegetation and livestock by richard kyuma

References• Wahome et al., 2008; • Choge and Pasiecznik, 2006• Tewari et al., 2000; • Pasiecznik et al., 2001• Silva, 1986• UNEP/CBD, 2010• GOK- Kenya PDNA, 2012• Kazmi et al., 2010• Galvin et al., 2004; IPCC 2007• Resilience Alliance, 2010; • Tennigkeit T. and Wilkes A., 2008; • WISP Policy Note No. 04, 2007