Physiological Responses of Pteropyrum aucheri to Short-term Warming in Semi-arid Rangelands (Case Study: Kohpanj Region, Kerman Province, Iran)
محورهای موضوعی : Climate Change
1 - University of Jiroft
کلید واژه: physiology, Warming, Open-Top Chambers, <, Pteropyrum aucheri>, ,
چکیده مقاله :
Scientists predict climate changes and warmer conditions for the world in future. Predicting the warming effect on plant performance is one of the most important challenges in ecological sciences. In this study, the effects of short-term warming on physiological traits of Pteropyrum aucheri as one of the domain shrubs was assessed in riverside of semi-arid rangelands of Kohpanj region, Bardsir, Kerman province, Iran in 2014. Five 5×5 m2 blocks were selected with the same elevation, slope and aspect. In each block, mature individuals of Pteropyrum aucheri were studied in 10 circular plots with 2m diameter during spring and summer. For simulating the warming phenomenon, Open-Top Chambers (OTCs) were placed on 5 plots and other plots were considered as control plots. OTC is applied in natural ecosystems and provides nearly the same growth condition for species with higher temperature. Results showed that the OTCs enhanced monthly average of air temperature (5cm above soil surface) as 1.5 ºC, surface soil temperature of 2 ºC and soil temperatures (5 cm below soil surface) as 1.7 ◦C in warming plots. Results showed that photosynthetic pigments (Chlorophyll a, b and total) were significantly reduced and carotenoid was significantly increased with short-term warming in warmingplots (p<0.05). Water content, leaf area and dry matter production were none significantly declined with warming. In general, short-term warming affected photosynthesis performance of Pteropyrum aucheri but biomass was not considerably affected by warming.
Acevedo, M.F.B., Groen, T.A., Hecker, Ch.A., Skidmor, A.K., 2017. Identifying leaf traits that signal stress in TIR spectra. Journal of Photogrammetry and Remote Sensing, 125: 132-145.
Akbari, Sh., Kafi, M., Rezvan Bidokhty, Sh., 2016. Effect of drought stress on yield, yield components and antioxidant in two ecotypes of garlic (Allium sativum L) with different planting densities. Journal of Agroecology, 8(1): 95-106. (In Persian)
Barnabas, B., Jager, K., Feher, A., 2008. The effect of drought and heat stress on reproductive processes in cereals. Plant Cell Environment, 31: 11–38.
Bayat, M., Arzani, H., Jalili, A., Nateghi, S., 2016. The Effects of climatic parameters on vegetation cover and forage production of four grass species in semi-steppe Rangelands in Mazandaran Province, Iran. Journal of Rangeland science, 6 (4): 368-376.
Bellot, J., Maestre, F.T., Hernandez, N., 2004. Spatio-temporal dynamics of chlorophyll fluorescence in a semi-arid Mediterranean shrub land. Journal of Arid Environment, 58: 295–308.
Bjerke, J.W., Bokhorst, S., Zielke, M., Callaghan, T.V., 2011. Contrasting sensitivity to extreme winter warming events of dominant sub-Arctic heathland bryophyte and lichen species, Ecology, 99: 1481–1488.
Chapin, F.S., 1980. The mineral nutrition of wild plants. Annual Review of Ecology and Systematics, 11: 233–260.
Colom, M.R., Vazzana, C., 2003. Photosynthesis and PSII functionality of drought-resistant and drought-sensitive weeping love grass plants. Environmental and Experimental Botany, 49: 135-144.
Cutforth, H.W., McConkey, B.G., Woodvine, R.J., Smith, D.G., Jefferson, P.G., Akinremi, O.O., 1999. Climate change in the semiarid prairie of southwestern Saskatchewan: late winter early spring. Canadian Journal of Plant Science, 79(3): 343–350.
Damgaard, Ch., Raundrup, K., Aastrup, P., Langen, P.L., Feilberg, J., Nielsen, J.N., 2016. Arctic resilience: no evidence of vegetation change in response to grazing and climate changes in South Greenland. Arctic, Antarctic, and Alpine Research, 48 (3): 531–549.
El-Tayeb, M.A., 2005. Response of barley gains to the interactive effect of salinity and salicylic acid. Plant Growth Regulation, 45: 215-225.
Ghanbari, A.A., Shakiba1, M.R., Toorchi, M., Choukan, R., 2013. Morpho-physiological responses of common bean leaf to water deficit stress. European Journal of Experimental Biology, 3(1): 487-492.
Haeuser, E., Dawson, W., van Kleunen, M., 2017. The effects of climate warming and disturbance on the colonization potential of ornamental alien plant species. Ecology, 105(6): 1698-1708.
Hollister, R.D., Flaherty, K.J., 2010. Above- and below-ground plant biomass response to experimental warming in northern Alaska. Applied Vegetation Science, 13 (3): 378–387.
Intergovernmental Panel on Climate Change (IPCC), 2001. Climate change 2001: Impacts, adaptation and vulnerability, Contribution of Working Group II to the Third Assessment Report of the Intergovernmental Panel on Climate Change, edited by J. J. McCarthy, O. F. Price: 34.95, ISBN 0-521-01500-6 (paperback), ISBN 0-521-80768-9.
Intergovernmental Panel on Climate Change (IPCC), 2007. Climate change 2007: the physical science basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate change. Solomon S., Qin D., Manning M., Chen Z., Marquis M., Averyt K.B., Tignor M., M., Miller H.L. (Eds), Cambridge University Press, Cambridge, UK, pp 996.
Jonasson, S., Michelsen, A., Schmidt, I.K., Nielsen, E.V., 1999. Responses in microbes and plants to changed temperature, nutrient, and light regimes in the arctic. Ecology, 80(6): 1828-1843.
Kalantar Ahmadi, S.A., Ebadi, A., Jahanbakhsh, S., Daneshian J., Siadat, S.A., 2014. Effects of water stress and nitrogen on changes of some amino acids and pigments in canola. Bulletin of Environment, pharmacology and Life Sciences, 4: 114-122.
Kirschbaum, M.U.F., 2000. Forest growth and species distribution in a changing climate. Tree Physiology, 20: 309–322.
Klein, J.A., Harte, J., Zhao, X.Q., 2005. Dynamic and complex microclimate responses to warming and grazing manipulations. Global Change Biology, 11(9): 1440–1451.
Koyro, H.W., 2006. Effect of salinity on growth, photosynthesis, water relations and solute composition of potential cash crop halophyte Plantago coronopus (L.). Environmental and Experimental Botany, 56: 136-149.
Lei, Y., Yin, C., Ren, J., Li, C., 2007. Effect of osmotic stress and sodium nitroprusside pretreatment on proline metabolism of wheat seedlings. Biologia Plantarum, 51(2): 386-390.
Liboriussen, L., Landkildehus, F., Meerhoff, M., Bramm, M.E., Sondergaard, M., Christoffersen, K., Richardson, K., Sondergaard, M., Lauridsen, T.L., Jeppesen, E., 2005. Global warming: Design of a flow-through shallow lake mesocosm climate experiment. Limnology and Oceanography: Methods, 3: 1-9.
Lichtenthaler, H.K., 1987. Chlorophylls and carotenoids: pigments of photosynthetic biomembranes. Methods in Enzymology, 148: 350-382.
Llorens, L., Penuelas, J., Estiarte, M., 2003. Eco physiological responses of two Mediterranean shrubs, Erica multiflora and Globularia alypum, to experimentally drier and warmer conditions. Physiologia Plantarum, 119: 231–243.
Ma, Q.Q., Wang, W., Li, Y.H., Li, D.Q., Zou, Q., 2006. Alleviation of photoinhibition in drought-stressed wheat (Triticum aestivum) by foliar applied glycinbetaine. J. Plant Physiology, 163: 165-175.
Maestre, F.T., Quero, J.L., Gotelli, N.J., Escurado, A., Ochoa, V., Delgado-Baquerizo, M., Garcia-Gomez, M., Bowker, M.A., Soliveres, S., Scolar, C., 2012. Plant species richness and ecosystem multifunctionality in global drylands. Science, 335: 214-218.
Mahmood, S., Iram, S., Athar, H.R., 2003. Intra-specific various quantitative and qualitative attributes under differential salt region. Journal of Research in Science Teaching, 14: 177-186.
Marion, G.M., Henry, G.H.R., Freckman, D.W., Johnstone, J., Jones, G., Jones, M.H., Lévesque, E., Molau, U., Molgaard, P., Parsons, A.N., Svoboda, J., Virginia, R.A., 1997. Open-top designs for manipulating field temperature in high-latitude ecosystems. Global Change Biology, 3: 20–32.
Martinez, J.P., Silva, H., Ledent, J.F., Pinto, M., 2007. Effect of drought stress on the osmotic adjustment, cell wall elasticity and cell volume of six cultivars of common beans (Phaseolus vulgaris L.). European Journal of Agronomy, 26: 30-38.
Morison, J.I.L., Lawlor, D.W., 1999. Interactions between increasing CO2 concentration and temperature on plant growth. Plant Cell Environment, 22: 659–682.
Neocleous, D., Nasilakakis, M., 2007. Effects of NaCl stress on red raspberry (Rubusidaeus L. "Autumn Bliss"). Science Horticultural, 112: 282-289.
Netten, J.J.C., van Nes, E.H., Scheffer, M., Roijackers, R.M.M., 2008. Use of open-top chambers to study the effect of climate change in aquatic ecosystems, Limnology and Oceanography: Methods, 6: 223-229.
Penuelas, J., Llusia, J., 2002. Linking photorespiration, terpenes and thermos tolerance. New Phytologist, 155: 227–237.
Pereira, J.S., 1995. Gas exchange and growth. In: Schulze E-D, Caldwell MM, eds. Ecophysiology of photosynthesis. 147–181pp. Springer-Verlag. Berlin:
Post, E., Pedersen, C., 2008. Opposing plant community responses to warming with and without herbivores. Proceedings of the National Academy of Sciences of the United States of America, 105 (34): 12353-12358.
Rampino, P., Spano, G., Pataleo, S., Mita, G., Napier, J.A., Di Fonzo N., Shewry, P.R., Perrotta, C., 2006. Molecular analysis of a durum wheat stays green mutant: Expression pattern of photosynthesis- related genes. Journal of Cereal Science, 43: 160-168.
Root, T.L., Price, J.T., Hall, K.R., Schneider, S.H., Rosenzweig, C., Pounds, J.A., 2003. Finger prints of global warming on wild animals and plants. Nature, 421: 57–60.
Saeedi Goraghani, H.R., Heidary, Gh.A., Solaimani Sardo, M., 2014. Effects of salinity and drought stresses on seed germination and seedling growth of desert wheatgrass Agropyron desertorum. Journal of Rangeland science, 4 (1): 14-22.
Santamaria, L., VanVierssen, W., 1997. Photosynthetic temperature responses of fresh- and brackish-water macrophytes: a review. Aquatic Botany, 58: 135-150.
Sardans, J., Penuelas, J., Estiarte, M., 2006. Warming and drought alter soil phosphatase activity and soil P availability in a Mediterranean shrub land. Plant Soil, 289: 227–238.
Sastry, A., Guha, A., Barua, D., 2018. Leaf thermos tolerance in dry tropical forest tree species: relationships with leaf traits and effects of drought. AoB PLANTS 10: plx070; doi: 10.1093/aobpla/plx070
Shaver, G.R., Jonasson, S., 1999. Response of Arctic ecosystems to climate change: results of long-term field experiments in Sweden and Alaska. Polar Research, 18: 245–252.
Shaver, G.R., Canadell, J., Chapin, F.S., Gurevitch, J., Harte, J., Henry, G., Ineson, P., Jonasson, S., Melillo J., Pitelka, L. Rustad, L., 2000. Global warming and terrestrial ecosystems: a conceptual framework for analysis. Bioscience, 50: 871–882.
Suzuki, S., Kudo, G., 2000. Responses of alpine shrubs to simulated environmental change during three years in the mid-latitude mountain, northern Japan. Ecography, 23: 553–564.
Tanaka, A., Tanaka, R., 2006. Chlorophyll metabolism. Plant Biology, 9: 248-255.
Wahren, C.H., Camac, J.C., Jarrad, F.C., Williams, R.J., Papst, W.A., 2013. Experimental warming and long-term vegetation dynamics in an alpine heath land. Australian Journal of Botany, 61: 36-51.
Wan, Y., You, S., Li, Y., Wang, B., Gao, Q., Qin, X., Liu, Sh., 2014. Applied effect of improved open-top chamber on simulation in situ of elevating air temperature and CO2 concentration in early rice field. Transactions of the Chinese Society of Agricultural Engineering, 30: 123-130.
Xu, Z., Xiong, H.Y.P., Wan, C., Liu, Q., 2012. Short-term responses of Picea asperata seedlings of different ages grown in two contrasting forest ecosystems to experimental warming. Environmental and Experimental Botany, 77: 1-11.
Yang, Y., Liu, Q., Han, C., Qiao, Y.Z., Yao, X.Q., Yin, H.J., 2007. Influence of water stress and low irradiance on morphological and physiological characteristics of Picea asperata seedlings. Photosyntetica, 45 (4): 613-619.
Zhao, C., Liu, Q., 2008. Growth and photosynthetic responses to two coniferous species experimental warming and nitrogen fertilization. Canadian Journal of Forest Research, 39: 1–11.