The influence of seed transfer distance on the growth of Calotropis procera (ait) provenances in dry lands of South Eastern Kenya

Festus Mbatha Mutiso Festus Mbatha Mutiso,Alice Njeri Muchugi Alice Njeri Muchugi,Josphert Ngui Kimatu Josphert Ngui Kimatu,Malia Jacinta Kimiti Malia Jacinta Kimiti

doi:10.30574/msarr.2021.2.2.0053

Festus Mbatha Mutiso Festus Mbatha Mutiso, Alice Njeri Muchugi Alice Njeri Muchugi + Show 2 more

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https://doi.org/10.30574/msarr.2021.2.2.0053

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Abstract

In a study to domesticate the species Calotropis procera, for wool production in drylands, investigations were done to determine the effects of seed transfer distance on the growth of the species in a typical farm setting. The objectives of the research were to determine the growth of three provenances of C. procera and to determine the influence of seed transfer distance on the growth parameters. Diameter and height data were used to generate horizontal and vertical growth curves respectively and further subjected to Duncan Multiple Range Test (DMRT) to isolate existence of significant differences across the three provenances. Pearson correlation analysis was used to establish existence of relationships across the growth parameters. Results showed that C. procera is a multi-stemmed plant. Duncan Multiple Range Test (DMRT) showed no significant statistical differences (p<0.5) in diameter growth though Pearson correlation analysis, showed strong positive correlations (Pearson, p<0.01) between branching and DBH Test of homogeneity of variances showed significant statistical differences (p<0.5) in vertical growth The study concluded that C. procera is a multi-stemmed plant that can reach a height of 4.48m and a diameter of 7.4cm in two years. It is recommended that C. procera seeds for raising nursery stock should be sourced from the nearest source possible. This will reduce the environmental and climatic effects associated with long distance seed transfers and ensure the species benefits from home-site advantages.

Highlights

The seed transfer distance is mainly employed in development of seed transfer guidelines in many countries especially for industrial plantations
Duncan Multiple Range Test (DMRT) showed no significant statistical differences (p
This will reduce the environmental and climatic effects associated with long distance seed transfers and ensure the species benefits from home-site advantages

Summary

Introduction

The seed transfer distance is mainly employed in development of seed transfer guidelines in many countries especially for industrial plantations. The seed origin has been known to determine field growth performance of a provenance [2]. Seed transfer guidelines give local provenances priority and ensure that seeds from a given provenance are not moved over long distances that can lead to pronounced changes in elevation and latitude. The elevation and latitude are key determinants of climate of a given locality through their influence on temperature. According to Matias L et al [3], changes in climatic conditions alter growth, survival and physiological performance of seedlings. The influence of latitude on provenance performance has been documented by [4, 5, 6]. [7], in a study on seedlings growth of two provenances of Nothofagus glauca

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