Abstract
The gas exchange of the upper fully expanded leaf of the root parasite Striga hermonthica and of its host Sorghum bicolor was measured under wet and dry conditions to identify the mechanisms of the devastating effects of the parasite on its hosts under drought. The short-term water stress severely reduced photosynthetic rate in infected sorghum, but less in S. hermonthica. Soil water stress did not affect leaf respiration rate in either S. hermonthica or infected sorghum. This suggests that under dry conditions both infected sorghum and S. hermonthica decreased autotrophic carbon gain. The transpiration rate of S. hermonthica, a major driving force for assimilate uptake from the host, was higher and less affected by water stress than that of infected sorghum. Stomatal density on the abaxial surfaces of the leaves was higher in S. hermonthica than in sorghum. Both S. hermonthica infection and water stress decreased stomatal conductance of the sorghum leaves. S. hermonthica, irrespective of soil water status, had greater stomatal aperture on the adaxial and abaxial surfaces of its leaves than infected sorghum. These results indicate that the higher transpiration rate of S. hermonthica even under water stress, achieved through higher stomatal density on the abaxial surfaces of the leaves and greater stomatal aperture on both surfaces of the leaves, may induce the maintenance of water and solute transfers from the host to the parasite leading to severe damage to the host under drought.
This is a preview of subscription content, log in via an institution to check access.
Abbreviations
- ci :
-
intercellular CO2 concentration
- DAS:
-
days after sowing
- E:
-
transpiration rate
- Fv/Fm :
-
variable to maximum chlorophyll fluorescence (maximal quantum yield of PS II)
- gs :
-
stomatal conductance
- PN :
-
net photosynthetic rate
- PPFD:
-
photosynthetic photon flux density
- PS II:
-
photosystem II
- Rs :
-
respiration rate
- RWC:
-
relative water content
References
Andrews, F.W.: The parasitism of Striga hermonthica Benth. on sorghum spp. under irrigation. I. Preliminary results and the effect of heavy and light irrigation on Striga attack. — Annu. appl. Biol. 32: 193–200, 1945.
Cechin, I., Press, M.C.: Nitrogen relations of the sorghum-Striga hermonthica host-parasite association: growth and photo-synthesis. — Plant Cell Environ. 16: 237–247, 1993.
Chen, H., Shen, H., Ye, W., Cao, H., Wang, Z.: Involvement of ABA in reduced photosynthesis and stomatal conductance in Cuscuta campestris — Mikania micrantha accosiation. — Biol. Plant. 55: 545–548, 2011.
Ducarme, V., Wesselingh, R.A.: Performance of two Rhinanthus species under different hydric conditions. — Plant Ecol. 206: 263–277, 2010.
Ejeta, G., Butler, L., Babiker, A.G.T.: New Approaches to the Control of Striga: Striga Research at Purdue University Research Bulletin No. 991. Agricultural Experimental Station, Purdue University, West Lafayette 1993.
Flexas, J., Medrano, H.: Drought-inhibition of photosynthesis in C3 plants: stomatal and non-stomatal limitations revisited. — Ann. Bot. 89: 183–189, 2002.
Frost, D.L., Gurney, A.L., Press, M.C., Scholes, J.D.: Striga hermonthica reduces photosynthesis in sorghum: the importance of stomatal limitations and a potential role for ABA? — Plant Cell Environ. 20: 483–492, 1997.
Ghannoum, O.: C4 photosynthesis and water stress. — Ann. Bot. 103: 635–644, 2009.
Graan, T., Boyer, J.S.: Very high CO2 partially restores photosynthesis in sunflower at low leaf water potential. — Planta 181: 378–384, 1990.
Graves, J.D., Press, M.C., Stewart, G.R.: A carbon balance model of the sorghum-Striga hermonthica host-plant association. — Plant Cell Environ. 12: 101–107, 1989.
Jiang, F., Jeschke, W.D., Hartung, W.: Water flow in the parasitic association Rhinanthus minor/Hordeum vulgare. — J. exp. Bot. 54: 1985–1993, 2003.
Kramer, P.J., Boyer, J.S. (ed.): Water Relations of Plants and Soils. — Academic Press, San Diego 1995.
Lawlor, D.W.: Limitation to photosynthesis in water-stressed leaves: stomatal vs. metabolism and the role of ATP. — Ann. Bot. 89: 871–885, 2002.
Mehri, N., Fotovat, R., Saba, J., Jabbari, F.: Variation of stomata dimensions and densities in tolerant and susceptible wheat cultivars under drought stress. — J. Food Agr. Environ. 7: 167–170, 2009.
Nagasuga, K., Murai-Hatano, M., Kuwagata, T.: Effects of low root temperature on dry matter production and root water uptake in rice plants. — Plant Prod. Sci. 14: 22–29, 2011.
Ogborn, J.E.A.: The significance of the seasonal pattern of emergence of Striga hermonthica Benth. — In: Rao, N.G.P., House, L.R. (ed.): Sorghum in Seventies. Pp. 562–571. Oxford and IBH Publ. Co., New Delhi 1972.
Ohsumi, A., Hamasaki, A., Nakagawa, H., Homma, K., Horie, T., Shiraiwa, T.: Response of leaf photosynthesis to vapor pressure difference in rice (Oryza sativa L.) varieties in relation to stomatal and leaf internal conductance. — Plant Prod. Sci. 11: 184–191, 2008.
Parker, C.: Observations on the current status of Orobanche and Striga problems worldwide. — Pest Manage. Sci. 65: 453–459, 2009.
Press, M.C., Tuohy, J.M., Stewart, G.R.: Gas exchange characteristics of the sorghum-Striga host-parasite association. — Plant Physiol. 84: 814–819, 1987.
Rich, P.J., Ejeta, G.: Biology of host-parasite interactions in Striga species. — In: Ejeta, G., Gressel, J. (ed.): Integrated New Technologies for Striga Control: Towards Ending the Witch-hunt. Pp. 19–32. World Scientific Publ. Co., Singapore 2007.
Rodenburg, J., Bastiaans, L., Schapendonk, A.H.C.M., van der Putten, P.E.L., van Ast, A., Dingemanse, N.J., Haussmann, B.I.G.: CO2-assimilation and chlorophyll fluorescence as indirect selection criteria for host tolerance against Striga. — Euphytica 160: 75–87, 2008.
Shah, N., Smirnoff, N., Stewart, G.R.: Photosynthesis and stomatal characteristics of Striga hermonthica in relation to its parasitic habit. — Physiol. Plant. 69: 699–703, 1987.
Smith, S., Stewart, R.: Effect of potassium levels on the stomatal behavior of the hemi-parasite Striga hermonthica. — Plant Physiol. 94: 1472–1476, 1990.
Stewart, G.R., Press, M.C.: The physiology and biochemistry of parasitic angiosperms. — Annu. Rev. Plant Physiol. Plant. mol. Biol. 41: 127–151, 1990.
Taylor, A., Martin, J., Seel, W.E.: Physiology of the parasitic association between maize and witchweed (Striga hermonthica): is ABA involved? — J. exp. Bot. 47: 1057–1065, 1996.
Taylor, A., Seel, W.E.: Do Striga hermonthica-induced changes in soil matric potential cause the reduction in stomatal conductance and growth of infected maize plants? — New Phytol. 138: 67–73, 1998.
Yan, K., Chen, P., Shao, H., Zhao, S., Zhang, L., Zhang, L., Xu, G., Sun, J.: Responses of photosynthesis and photosystem II to higher temperature and salt stress in sorghum. — J. Agron. Crop Sci. 198: 218–226, 2012.
Zhu, X.-C., Song, F.-B., Liu, S.-Q., Liu, T.-D.: Effects of arbuscular mycorrhizal fungus on photosynthesis and water status of maize under high temperature stress. — Plant Soil 346: 189–199, 2011.
Author information
Authors and Affiliations
Corresponding author
Additional information
Acknowledgements: The authors are indebted to Mr. Ismail Ibrahim Elmunsor, Mr. Ahmed Mohammed Tahaand, and Mr. Sidig Elmahdy Dafalla for daily maintenance of plant materials used in the experiment. This study was partly supported by JICA-JST SATREPS, the Global COE program, and RIHN.
Rights and permissions
About this article
Cite this article
Inoue, T., Yamauchi, Y., Eltayeb, A.H. et al. Gas exchange of root hemi-parasite Striga hermonthica and its host Sorghum bicolor under short-term soil water stress. Biol Plant 57, 773–777 (2013). https://doi.org/10.1007/s10535-013-0348-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10535-013-0348-7