Effect of elevated ultraviolet-B on four tropical soybean cultivars: quantitative and qualitative aspects with special emphasis on gas exchange, chlorophyll fluorescence, biomass and yield

• Autorzy: Choudhary K.K. , Agrawal S.B.
• Języki publikacji: EN

Abstrakty

EN

Four Indian soybean cultivars (Glycine max L. cv. JS-335, JS 97-52, PK-416 and PS-1042) were grown under field conditions in suburban area of Varanasi to evaluate the varietal differences against ambient and elevated ultraviolet-B (ambient + 7.2 kJ m-2 day-1) for two consecutive years. Elevated UV-B caused negative impact on the assessed parameters with varied magnitude amongst the test cultivars. Reductions in rate of photosynthesis and stomatal conductance were observed maximum in JS-335 and minimum in PS-1042. Elevated UV-B also affected the plant abilities to utilize sunlight and increase the photoinhibitory response, which was displayed by reduced Fv/Fm in tested cultivars. Similar results were also observed for the biomass, yield and seed quality with maximum reduction in JS-335 followed by PK-416, JS 97-52 and PS-1042. Decline in the rate of photosynthesis, extra allocation of photosynthates for repairing and change in translocation pattern of solute and nutrients are mainly responsible for the deterioration in seed quality. Cumulative stress response index (CSRI) and quality response index (QRI) also revealed the sensitivity of soybean cultivars against elevated UV-B. Indexing of cultivars suggests that JS-335 was most sensitive whereas PS-1042 was resistant amongst cultivars.

• Wydawca: -
• Czasopismo: Acta Physiologiae Plantarum
• Rocznik: 2015
• Tom: 37
• Numer: 02
• Opis fizyczny: Article: 31 [12 p.], fig.,ref.

Twórcy

autor

Choudhary K.K.

• Laboratory of Air Pollution and Global Climate Change, Department of Botany, Banaras Hindu University, Varanasi 221005, India

autor

Agrawal S.B.

• Laboratory of Air Pollution and Global Climate Change, Department of Botany, Banaras Hindu University, Varanasi 221005, India

Bibliografia

• Agrawal SB, Mishra S (2009) Effects of supplemental ultraviolet-B and cadmium on growth, antioxidants and yield of Pisum sativum L. Ecotox Environ Safe 72:610–618
• Agrawal SB, Rathore D (2007) Changes in oxidative stress defense system in wheat (Triticum aestivum L.) and mung bean (Vigna radiata L.) cultivars grown with and without mineral nutrients and irradiated by supplemental Ultraviolet-B. Environ Exp Bot 59:21–33
• Agrawal SB, Rathore D, Singh A (2004) Effect of supplemental ultravoilet-B and mineral nutrients on growth, biomass allocation and yield of wheat (Triticum aestivum L.). Trop Ecol 45:315–325
• Agrawal SB, Singh S, Agrawal M (2009) Ultraviolet-B induced changes in gene expression and antioxidants in plants. In: Jacquot J (ed) Advances in botanical research, vol 52. Academic Press, USA, pp 47–86
• Allen DJ, Nogues S, Baker NR (1998) Ozone depletion and increased UV-B radiation: is there a real threat to photosynthesis? J Exp Bot 49:1775–1788
• Anderson JG, Wilmouth DM, Smith JB, Sayers DS (2012) UV dosage levels in summer: increased risk of ozone loss from convectively injected water vapor. Science 337:835–839
• Baker NR, Rosenqvist E (2004) Applications of chlorophyll fluorescence can improve crop production strategies: an examination of future possibilities. J Exp Bot 55:1607–1621
• Choudhary KK, Agrawal SB (2014a) Cultivar specificity of tropical mung bean (Vigna radiata L.) to elevated ultraviolet-B: changes in antioxidative defense system, nitrogen metabolism and accumulation of jasmonic and salicylic acids. Environ Exp Bot 99:122–132
• Choudhary KK, Agrawal SB (2014b) Ultraviolet-B induced changes in morphological, physiological and biochemical parameters of two cultivars of pea (Pisum sativum L.). Ecotox Environ Safe 100:178–187
• Choudhary KK, Pandey D, Agrawal SB (2013) Deterioration of rhizospheric soil health due to elevated ultraviolet-B. Arch Agron Soil Sci 59:1419–1437
• Correia CM, Areal ELV, Torres-Pereira MS, Torres-Pereira JMG (1998) Intraspecific variation in sensitivity to ultraviolet-B radiation in maize grown under field conditions. I. Growth and morphological aspects. Field Crop Res 59:81–89
• Day TA, Vogelmann TC (1995) Alterations in photosynthesis and pigment distribution in pea leaves following UV-B exposure. Physiol Plantarum 94:433–440
• Demchik SM, Day TA (1996) Effect of enhanced UV-B radiation on pollen quantity, quality and seed yield in Brassica rapa (Brassicaceae). Am J Bot 83:573–579
• Dubois M, Gilles KA, Hamilton JK, Rebers PA, Smith F (1956) Colorimetric method for determination of sugars and related substances. Anal Chem 28:350–356
• Feng H, An L, Chen T, Qiang W, Xu S, Zhang M, Wang X, Cheng G (2003) The effect of enhanced ultraviolet-B radiation on growth, photosynthesis and stable carbon isotope composition (d13C) of two soybean cultivars (Glycine max) under field conditions. Environ Exp Bot 49:1–8
• Gao W, Zheng Y, Slusser JR, Heisler GM, Grant RH, Xu J, He D (2004) Effects of supplementary ultraviolet-B irradiance on maize yield and qualities: a field experiment. Photochem Photobiol 80:127–131
• Gilbert ME, Zwieniecki MA, Hobbrook NM (2011) Independent variation in photosynthetic capacity and stomatal conductance leads to differences in intrinsic water use efficiency in 11 soybean genotypes before and during mild drought. J Exp Bot 62:2875–2887
• Hidema J, Zhang W, Yamamoto M, Sato T, Kumagai T (2005) Changes in grain size and grain storage protein of rice (Oryza sativa L.) in response to elevated UV-B radiation under outdoor conditions. J Radiat Res 46:143–149
• Jansen MAK, Gaba V, Greenberg BM (1998) Higher plants and UVB radiation: balancing- damage, repair and acclimation. Trends Plant Sci 3:131–135
• Kakani VG, Reddy KR, Zhao D, Koti S (2003) Field crop responses to ultraviolet-B radiation: a review. Agr Forest Meteorol 120:191–218
• Koti S, Reddy KR, Kakani VG, Zhao D, Gao W (2007) Effects of carbon dioxide, temperature and ultraviolet-B radiation and their interactions on soybean (Glycine max L.) growth and development. Environ Exp Bot 60:1–10
• Lowry OH, Rosebrough NJ, Farr AL, Randall RJ (1951) Protein measurement with the folin phenol reagent. J Biol Chem 193:265–275
• Maruyama S, Tajima K (1990) Leaf conductance in japonica and indica rice varieties I. size, frequency and aperture of stomata. Jpn J Crop Sci 59:801–808
• Maxwell K, Johnson GN (2000) Chlorophyll fluorescence: a practical guide. J Exp Bot 51:659–668
• Mazza CA, Battista D, Zima AM, Szwarcberg-Bracchitta M, Giordano CV, Acevedo A, Scopel AL, Ballare CL (1999) The effects of solar ultraviolet-B radiation on the growth and yield of barley are accompanied by increased DNA damage and antioxidant responses. Plant, Cell Environ 22:61–70
• Moore S, Stein WH (1948) Polyphenol oxidase. In: Colowick SP, Kaplan ND (eds) Methods in enzymology. Academic Press, New York, p 468
• Onoda Y, Hikosaka K, Hirose T (2005) Seasonal change in the balance between capacities of RuBP carboxylation and RuBP regeneration affects CO2 response of photosynthesis in Polygonum cuspidatum. J Exp Bot 56:755–763
• Peng S, Laza RC, Khush GS, Sanico AL, Visperas RM, Garcia FV (1998) Transpiration efficiencies of indica and improved tropical japonica rice grown under irrigated conditions. Euphytica 103:103–108
• Rathore D, Agrawal SB, Singh A (2003) Influences of supplemental UV-B radiation and mineral nutrients on biomass, pigments and yield of two cultivars of wheat (Triticum aestivum L.). Int J Biotronics 32:1–15
• Sahoo A, Sarkar S, Singh RP, Kafatos M, Summers ME (2005) Declining trend of total ozone column over the northern parts of India. Int J Rem Sens 26:3433–3440
• Singh M, Singh S, Agrawal SB (2012) Intraspecific responses of six cultivars of wheat (Triticum aestivum L.) to supplemental ultraviolet-B radiation under field conditions. Acta Physiol Plant 34:65–74
• Singh S, Agrawal M, Agrawal SB (2013) Differential sensitivity of spinach and amaranthus to enhanced UV-B at varying soil nutrient levels: association with gas exchange, UV-B-absorbing compounds and membrane damage. Photosynth Res 115:123–138
• Smith JL, Buritt DJ, Bannister P (2000) Shoot dry weight, chlorophyll and UV-B absorbing compounds as indicators of a plant’s sensitivity to UV-B radiation. Ann Bot 86:1057–1063
• Sullivan JH, Gitz DC, Peek MS, McElrone AJ (2003) Response of three eastern tree species to supplemental UV-B radiation: leaf chemistry and gas exchange. Agr Forest Meteorol 120:219–228
• Takshak S, Agrawal SB (2014) Effect of ultraviolet-B radiation on biomass production, lipid peroxidation, reactive oxygen species, and antioxidants in Withania somnifera. Biol Plant 58:328–334
• Teramura AH, Sullivan JH, Lydon J (1990) Effects of UV-B radiation on soybean yield and seed quality. A six-year field study. Physiol Plantarum 80:5–11
• Tripathi R, Agrawal SB (2013) Interactive effect of supplemental ultraviolet B and elevated ozone on seed yield and oil quality of two cultivars of linseed (Linum usitatissimum L.) carried out in open top chambers. J Sci Food Agr 93:1016–1025
• Tripathi R, Sarkar A, Rai SP, Agrawal SB (2011) Supplemental ultraviolet-B and ozone: impact on antioxidants, proteome and genome of linseed (Linum usitatissimum L. cv. Padmini). Plant Biol 13:93–104
• Weng JH, Chen CY (1987) Differences between indica and japonica rice varieties in CO2 exchange rates in response to leaf nitrogen and temperature. Photosynth Res 14:171–178
• WMO (1998) Scientific assessment of ozone depletion. WMO Global Ozone Research and Monitoring Project, Report No. 44, Geneva
• Yang H, Zhao Z, Qiang W, An L, Xu S, Wang X (2004) Effects of enhanced UV-B radiation on the hormonal contents of vegetative and reproductive tissues of two tomato cultivars and their relationships with reproductive characteristics. Plant Growth Regul 43:251–258
• Zu Y, Li Y, Chen J, Chen H (2004) Intraspecific responses in grain quality of 10 wheat cultivars to enhanced UV-B radiation under field conditions. J Photochem Photobio 74:95–100

Identyfikatory

DOI

10.1007/s11738-015-1780-4