Skip to main content

page search

Community Organizations International Livestock Research Institute
International Livestock Research Institute
International Livestock Research Institute
Acronym
ILRI
University or Research Institution

Location

Vision, mission and strategy

ILRI's strategy 2013-2022 was approved in December 2012. It emerged from a wide processof consultation and engagement.

ILRI envisions... a world where all people have access to enough food and livelihood options to fulfil their potential.

ILRI’s mission is... to improve food and nutritional security and to reduce poverty in developing countries through research for efficient, safe and sustainable use of livestock—ensuring better lives through livestock.

ILRI’s three strategic objectives are:

  1. with partners, to develop, test, adapt and promote science-based practices that—being sustainable and scalable—achieve better lives through livestock.
  2. with partners,to provide compelling scientific evidence in ways that persuade decision-makers—from farms to boardrooms and parliaments—that smarter policies and bigger livestock investments can deliver significant socio-economic, health and environmental dividends to both poor nations and households.
  3. with partners,to increase capacity among ILRI’s key stakeholders to make better use of livestock science and investments for better lives through livestock.

This is ILRI’s second ten-year strategy. It incorporates a number of changes, many based on learning from the previous strategy (2000–2010, initially produced in 2000 and modified in 2002), an interim strategy (2011–2012) and an assessment of the external and internal environments in which the institute operates.

Members:

Resources

Displaying 86 - 90 of 1152

Using path analysis to predict bodyweight from body measurements of goats and sheep of communal rangelands in Botswana

Journal Articles & Books
October, 2017
Botswana
Southern Africa
Africa

The objective of this study was to determine the practicality of using linear body measurement traits to predict live weight of goats and sheep under communal grazing in three districts of Botswana, namely Central, Kweneng, and Kgalagadi. Pairwise (Pearson) correlations were estimated using bodyweight (BW) and morphological trait measurements, namely heart girth (HG), shoulder height (SH), and body condition score (BCS) for a sample of 1447 goats and 588 sheep. These ranged from 0.19 to 0.94 for goats and 0.44 to 0.94 for sheep, and were statistically significant.

Mapping soil erosion hotspots and assessing the potential impacts of land management practices in the highlands of Ethiopia

Journal Articles & Books
August, 2017
Ethiopia
Africa
Eastern Africa

An enormous effort is underway in Ethiopia to address soil erosion and restore overall land productivity. Modelling and participatory approaches can be used to delineate erosion hotspots, plan site- and context-specific interventions and assess their impacts. In this study, we employed a modelling interface developed based on the Revised Universal Soil Loss Equation adjusted by the sediment delivery ratio to map the spatial distribution of net soil loss and identify priority areas of intervention.