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Abstract
This study makes use of data on wheat production in the Punjab of Pakistan from 1979 to 1985 to
1) examine patterns of varietal diversity in farmers' fields both at the regional and district levels and
2) identify how and in what ways genetic resources have contributed to wheat productivity and
yield stability-important considerations to farmers and national authorities where wheat is a
staple food crop. Five indicators are used to describe the system of wheat genetic resource use and
diversity in farmers' fields. The contribution of farmers' previous selections is expressed as the
number of different landraces appearing in the pedigree of a cultivar . The contribution of scientific
breeding efforts is expressed as the number of parental combination appearing in a cultivar's
pedigree. The diversity of wheat varieties in a geographical area, as related to productivity, is
captured by measures of area concentration (diversity in space) and age of varieties (diversity in
time). Finally, the relative dissimilarity of cultivars grown in a geographical area is measured using a
distance indicator constructed from genealogical information. Disaggregated analysis at the district
level demonstrates how diversity patterns are influenced by the production environment and by
possible differences in the availability of suitable varieties.
The study finds no indication that modern plant breeding technologies have reduced diversity
among the wheats grown in the districts of the Punjab of Pakistan during the study period, although
brief. Analysis of the genealogical background of the varieties grown by farmers reveals patterns of
greater use of genetic resources and dissimilarity of parentage. For some factors related to genetic
resource use and diversity, there are large differences between production environments (specifically,
irrigated and rainfed areas) and individual districts, which suggest that efforts to increase genetic
diversity in farmers' fields will require policy instruments tailored to the individual circumstances of
each production environment. Econometric results suggest that greater genealogical dissimilarity
and higher rates of varietal replacement are likely to have positive payoffs relative to aggregate yield
stability, while in areas where production constraints inhibit farmers' ability to exploit the yield
potential of their varieties, better production management is likely to have greater yield enhancing
effects than the varietal attributes related to diversity.