. 2018;66(4):516-524.

doi: 10.1017/wsc.2018.4. Epub 2018 Jul 1.

Assessment of Management Options on Striga Infestation and Maize Grain Yield in Kenya

Fred Kanampiu¹, Dan Makumbi², Edna Mageto³, Gospel Omanya⁴, Sammy Waruingi⁵, Peter Musyoka⁶, Joel Ransom⁷

Affiliations

¹ Senior Scientist, International Institute of Tropical Agriculture, Nairobi, Kenya.
² Senior Scientist, International Maize and Wheat Improvement Center, Nairobi, Kenya.
³ Graduate Student, Department of Agronomy, Iowa State University, Ames, IA 50011, USA.
⁴ Senior Project Manager, African Agricultural Technology Foundation, Nairobi, Kenya.
⁵ Managing Director, DUDU East Africa Ltd, Thika, Kenya.
⁶ Project Officer, African Agricultural Technology Foundation, Nairobi, Kenya and.
⁷ Professor and Extension Agronomist, North Dakota State University, Department of Plant Sciences, Fargo, ND 58108, USA.

PMID: 33583963
PMCID: PMC7797635
DOI: 10.1017/wsc.2018.4

Assessment of Management Options on Striga Infestation and Maize Grain Yield in Kenya

Fred Kanampiu et al. Weed Sci. 2018.

. 2018;66(4):516-524.

doi: 10.1017/wsc.2018.4. Epub 2018 Jul 1.

Authors

Fred Kanampiu¹, Dan Makumbi², Edna Mageto³, Gospel Omanya⁴, Sammy Waruingi⁵, Peter Musyoka⁶, Joel Ransom⁷

Affiliations

¹ Senior Scientist, International Institute of Tropical Agriculture, Nairobi, Kenya.
² Senior Scientist, International Maize and Wheat Improvement Center, Nairobi, Kenya.
³ Graduate Student, Department of Agronomy, Iowa State University, Ames, IA 50011, USA.
⁴ Senior Project Manager, African Agricultural Technology Foundation, Nairobi, Kenya.
⁵ Managing Director, DUDU East Africa Ltd, Thika, Kenya.
⁶ Project Officer, African Agricultural Technology Foundation, Nairobi, Kenya and.
⁷ Professor and Extension Agronomist, North Dakota State University, Department of Plant Sciences, Fargo, ND 58108, USA.

PMID: 33583963
PMCID: PMC7797635
DOI: 10.1017/wsc.2018.4

Abstract

The parasitic purple witchweed [Striga hermonthica (Del.) Benth.] is a serious constraint to maize production in sub-Saharan Africa, especially in poor soils. Various Striga spp. control measures have been developed, but these have not been assessed in an integrated system. This study was conducted to evaluate a set of promising technologies for S. hermonthica management in western Kenya. We evaluated three maize genotypes either intercropped with peanut (Arachis hypogaea L.), soybean [Glycine max (L.) Merr.], or silverleaf desmodium [Desmodium uncinatum (Jacq.) DC] or as a sole crop at two locations under artificial S. hermonthica infestation and at three locations under natural S. hermonthica infestation between 2011 and 2013. Combined ANOVA showed significant (P < 0.05) cropping system and cropping system by environment interactions for most traits measured. Grain yield was highest for maize grown in soybean rotation (3,672 kg ha-1) under artificial infestation and in D. uncinatum and peanut cropping systems (3,203 kg ha-1 and 3,193 kg ha-1) under natural infestation. Grain yield was highest for the Striga spp.-resistant hybrid under both methods of infestation. A lower number of emerged S. hermonthica plants per square meter were recorded at 10 and 12 wk after planting on maize grown under D. uncinatum in the artificial S. hermonthica infestation. A combination of herbicide-resistant maize varieties intercropped with legumes was a more effective method for S. hermonthica control than individual component technologies. Herbicide-resistant and Striga spp.-resistant maize integrated with legumes would help reduce the Striga spp. seedbank in the soil. Farmers should be encouraged to adopt an integrated approach to control Striga spp. for better maize yields.

Keywords: Cropping systems; herbicide resistance; imazapyr-resistant hybrids; legumes; maize varieties; peanut.

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Figures

**Figure 1**
Mean number of emerged S. hermonthica plants at 8, 10, and 12 wk after planting (WAP) for four cropping systems under artificial (A) and natural (B) S. hermonthica infestation for 3 yr (2011–2013). The whiskers represent SEs.

**Figure 2**
Mean number of emerged S. hermonthica plants at 8, 10, and 12 wk after planting (WAP) for four maize varieties under artificial (A) and natural (B) S. hermonthica infestation for 3 yr (2011–2013). The whiskers represent SEs. IR hybrid, imazapyr-resistant maize hybrid; IR-OPV, imazapyr-resistant maize, open-pollinated variety; Striga hybrid, S. hermonthica-resistant maize hybrid; WH403, commercial maize hybrid.

**Figure 3**
Mean S. hermonthica emergence at 8, 10, and 12 wk after planting (WAP) for four cropping systems under artificial S. hermonthica infestation at two locations for 3 yr (2011–2013). IR hybrid, imazapyr-resistant maize hybrid; IR-OPV, imazapyr-resistant maize, open-pollinated variety; S. hermonthica hybrid, S. hermonthica-resistant maize hybrid; WH403, commercial maize hybrid. The whiskers represent SEs.

**Figure 4**
Mean S. hermonthica emergence at 8, 10, and 12 wk after planting (WAP) for four cropping systems under natural S. hermonthica infestation at three locations for 3 yr (2011–2013). IR hybrid, imazapyr-resistant maize hybrid; IR-OPV, imazapyr-resistant maize, open-pollinated variety; Striga hybrid, S. hermonthica-resistant maize hybrid; WH403, commercial maize hybrid. The whiskers represent SEs.

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Assessment of Management Options on Striga Infestation and Maize Grain Yield in Kenya

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Assessment of Management Options on Striga Infestation and Maize Grain Yield in Kenya

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