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Nixon Flórez-Velasco, H. Balaguera-López, H. Restrepo-Díaz (2015)
Effects of foliar urea application on lulo (Solanum quitoense cv. septentrionale) plants grown under different waterlogging and nitrogen conditionsScientia Horticulturae, 186
W. Diepenbrock (2000)
Yield analysis of winter oilseed rape (Brassica napus L.): a reviewField Crops Research, 67
Alexandra Girondé, P. Etienne, J. Trouverie, A. Bouchereau, F. Cahérec, L. Leport, M. Orsel, M. Niogret, N. Nesi, Deleu Carole, Fabienne Soulay, C. Masclaux-Daubresse, J. Avice (2015)
The contrasting N management of two oilseed rape genotypes reveals the mechanisms of proteolysis associated with leaf N remobilization and the respective contributions of leaves and stems to N storage and remobilization during seed fillingBMC Plant Biology, 15
Y. Castonguay, P. Nadeau, R. Simard (1993)
Effects of flooding on carbohydrate and ABA levels in roots and shoots of alfalfaPlant Cell and Environment, 16
Chunli Wang, Jiangbo Hai, Jianli Yang, Jianhua Tian, Wenjie Chen, Chen Ting, Hongbo Luo, Hao Wang (2016)
Influence of leaf and silique photosynthesis on seeds yield and seeds oil quality of oilseed rape (Brassica napus L.)European Journal of Agronomy, 74
H. Araki, Asami Hamada, M. Hossain, Tadashi Takahashi (2012)
Waterlogging at jointing and/or after anthesis in wheat induces early leaf senescence and impairs grain fillingField Crops Research, 137
N. Simpson, R. Brennan, W. Anderson (2016)
Grain yield increases in wheat and barley to nitrogen applied after transient waterlogging in the high rainfall cropping zone of western AustraliaJournal of Plant Nutrition, 39
C. Li, L. Gan, K. Xia, X. Zhou, C. Hew (2002)
Responses of carboxylating enzymes, sucrose metabolizing enzymes and plant hormones in a tropical epiphytic CAM orchid to CO2 enrichmentPlant Cell and Environment, 25
T. Gebbing, H. Schnyder, W. Kühbauch (1999)
The utilization of pre‐anthesis reserves in grain filling of wheat. Assessment by steady‐state 13CO2/12CO2 labellingPlant Cell and Environment, 22
F. Habibzadeh, A. Sorooshzadeh, H. Pirdashti, S. Mohammad, Modarres-Sanavy (2013)
Alleviation of waterlogging damage by foliar application of nitrogen compounds and tricyclazole in canolaAustralian Journal of Crop Science, 7
R. Celedonio, L. Abeledo, J. Brihet, D. Miralles (2016)
Waterlogging Affects Leaf and Tillering Dynamics in Wheat and BarleyJournal of Agronomy and Crop Science, 202
Zou Xiling, Liu Zeng, G. Lu, Yong Cheng, Jinsong Xu, Xuekun Zhang (2015)
Comparison of transcriptomes undergoing waterlogging at the seedling stage between tolerant and sensitive varieties of Brassica napus L.Journal of Integrative Agriculture, 14
Anna-Catharina Wollmer, B. Pitann, Karl Mühling (2018)
Waterlogging events during stem elongation or flowering affect yield of oilseed rape (Brassica napus L.) but not seed qualityJournal of Agronomy and Crop Science, 204
G.-W. Rathke, T. Behrens, W. Diepenbrock (2006)
Integrated nitrogen management strategies to improve seed yield, oil content and nitrogen efficiency of winter oilseed rape (Brassica napus L.): A reviewAgriculture, Ecosystems & Environment, 117
J. Kreuzwieser, Jost Hauberg, K. Howell, Adam Carroll, H. Rennenberg, A. Millar, J. Whelan (2008)
Differential Response of Gray Poplar Leaves and Roots Underpins Stress Adaptation during Hypoxia1[W]Plant Physiology, 149
Jie Kuai, Zhaowei Liu, Youhua Wang, Y. Meng, Binglin Chen, Wenqing Zhao, Zhiguo Zhou, D. Oosterhuis (2014)
Waterlogging during flowering and boll forming stages affects sucrose metabolism in the leaves subtending the cotton boll and its relationship with boll weight.Plant science : an international journal of experimental plant biology, 223
D. Jiang, Xuemei Fan, T. Dai, W. Cao (2008)
Nitrogen fertiliser rate and post-anthesis waterlogging effects on carbohydrate and nitrogen dynamics in wheatPlant and Soil, 304
M. Ashraf, Habib-ur-Rehman (1999)
Interactive effects of nitrate and long-term waterlogging on growth, water relations, and gaseous exchange properties of maize (Zea mays L.)Plant Science, 144
Guohui Li, Qiuqian Hu, Yang Shi, K. Cui, Lixiao Nie, Jianliang Huang, S. Peng (2018)
Low Nitrogen Application Enhances Starch-Metabolizing Enzyme Activity and Improves Accumulation and Translocation of Non-structural Carbohydrates in Rice StemsFrontiers in Plant Science, 9
X. Ju, G. Xing, Xin-ping Chen, Shao-Lin Zhang, Li-juan Zhang, Xuelei Liu, Z. Cui, B. Yin, P. Christie, Zhao-liang Zhu, F. Zhang (2009)
Reducing environmental risk by improving N management in intensive Chinese agricultural systemsProceedings of the National Academy of Sciences, 106
W. Zhou, D. Zhao, X. Lin (1997)
Effects of Waterlogging on Nitrogen Accumulation and Alleviation of Waterlogging Damage by Application of Nitrogen Fertilizer and Mixtalol in Winter Rape (Brassica napus L.)Journal of Plant Growth Regulation, 16
A. Makino, H. Nakano, T. Mae (1994)
Responses of Ribulose-1,5-Bisphosphate Carboxylase, Cytochrome f, and Sucrose Synthesis Enzymes in Rice Leaves to Leaf Nitrogen and Their Relationships to Photosynthesis, 105
B. Ehdaie, G. Alloush, M. Madore, J. Waines (2006)
Genotypic variation for stem reserves and mobilization in wheat: II. Postanthesis changes in internode water-soluble carbohydratesCrop Science, 46
Xiling Zou, Chen Hu, Liu Zeng, Yong Cheng, Mingyue Xu, Xuekun Zhang (2014)
A Comparison of Screening Methods to Identify Waterlogging Tolerance in the Field in Brassica napus L. during Plant OntogenyPLoS ONE, 9
S. Brandt, S. Malhi, D. Ulrich, G. Lafond, H. Kutcher, A. Johnston (2007)
Seeding rate, fertilizer level and disease management effects on hybrid versus open pollinated canola (Brassica napus L.)Canadian Journal of Plant Science, 87
F. Ponnamperuma (1984)
CHAPTER 2 – Effects of Flooding on Soils
B. Ehdaie, G. Alloush, M. Madore, J. Waines (2006)
Genotypic variation for stem reserves and mobilization in wheat. I. Postanthesis changes in internode dry matterCrop Science, 46
Jianchang Yang, Jianhua Zhang, Zhiqing Wang, Qing-sen Zhu, Wei Wang (2001)
Remobilization of carbon reserves in response to water deficit during grain filling of riceField Crops Research, 71
Guohui Li, Junfeng Pan, K. Cui, Musong Yuan, Qiuqian Hu, Wencheng Wang, P. Mohapatra, Lixiao Nie, Jianliang Huang, S. Peng (2017)
Limitation of Unloading in the Developing Grains Is a Possible Cause Responsible for Low Stem Non-structural Carbohydrate Translocation and Poor Grain Yield Formation in Rice through Verification of Recombinant Inbred LinesFrontiers in Plant Science, 8
R. Sairam, K. Dharmar, V. Chinnusamy, R. Meena (2009)
Waterlogging-induced increase in sugar mobilization, fermentation, and related gene expression in the roots of mung bean (Vigna radiata).Journal of plant physiology, 166 6
S. Kaur, A. Gupta, N. Kaur (2005)
Seed Priming Increases Crop Yield Possibly by Modulating Enzymes of Sucrose Metabolism in ChickpeaJournal of Agronomy and Crop Science, 191
G. Brar, W. Thies (1977)
Contribution of Leaves, Stem, Siliques and Seeds to Dry Matter Accumulation in Ripening Seeds of Rapeseed, Brassica napus L.Zeitschrift für Pflanzenphysiologie, 82
Baizhao Ren, Jiwang Zhang, S. Dong, Peng Liu, Bin Zhao (2018)
Responses of carbon metabolism and antioxidant system of summer maize to waterlogging at different stagesJournal of Agronomy and Crop Science, 204
B. Lal, P. Gautam, Liza Rath, D. Haldar, B. Panda, R. Raja, M. Shahid, R. Tripathi, P. Bhattacharyya, S. Mohanty, A. Nayak (2015)
Effect of Nutrient Application on Growth, Metabolic and Enzymatic Activities of Rice Seedlings During Flooding Stress and Subsequent Re-AerationJournal of Agronomy and Crop Science, 201
T. Harada, K. Ishizawa (2003)
Starch degradation and sucrose metabolism during anaerobic growth of pondweed (Potamogeton distinctus A. Benn.) turionsPlant and Soil, 253
R. Ploschuk, D. Miralles, T. Colmer, G. Striker (2020)
Waterlogging differentially affects yield and its components in wheat, barley, rapeseed and field pea depending on the timing of occurrenceJournal of Agronomy and Crop Science, 206
Baoshan Wang, Mingyang Ma, Haiguo Lu, Q. Meng, Gang Li, Xinghong Yang (2015)
Photosynthesis, sucrose metabolism, and starch accumulation in two NILs of winter wheatPhotosynthesis Research, 126
J. Lunn, M. Hatch (1995)
Primary partitioning and storage of photosynthate in sucrose and starch in leaves of C4 plantsPlanta, 197
Reena Narsai, M. Rocha, P. Geigenberger, J. Whelan, Joost Dongen (2011)
Comparative analysis between plant species of transcriptional and metabolic responses to hypoxia.The New phytologist, 190 2
Lizhong He, Li Yu, Bin Li, N. Du, Shi-rong Guo (2018)
The effect of exogenous calcium on cucumber fruit quality, photosynthesis, chlorophyll fluorescence, and fast chlorophyll fluorescence during the fruiting period under hypoxic stressBMC Plant Biology, 18
Weijun Zhou, Xianqing Lin (1995)
Effects of waterlogging at different growth stages on physiological characteristics and seed yield of winter rape (Brassica napus L.)Field Crops Research, 44
Waterlogging is a main factor causing rapeseed (Brassica napus L.) yield loss, and reasonable nitrogen (N) applications can compensate for this loss. To investigate the effects of N rates on seed yield of waterlogged rapeseed, the waterlogging‐tolerant rapeseed variety ZS 9 and sensitive variety GH01 were waterlogged for 0 and 10 days with five leaves at the seedling stage under four N rates (0, 90, 180 and 270 kg/ha). Waterlogging significantly decreased seed yield, while N application can alleviate the yield loss. The yield decrease rate of waterlogged GH01 was greater than that of ZS 9 under the same N rate. During the seedling and bolting stage, the leaf photosynthetic rate (Pn) and ribulose‐1,5‐bisphosphate carboxylase/oxygenase (Rubisco) activity increased, while activities of adenosine diphosphate glucose pyrophosphorylase (AGPase), sucrose synthase (SuSy) and sucrose phosphate synthase (SPS) decreased with more N under the same watering conditions. Compared to the plants without waterlogging, the leaf Pn and Rubisco activity, starch and sucrose contents of waterlogged rapeseed decreased at the two stages; activities of AGPase, SuSy and SPS of waterlogged rapeseed decreased at the seedling while increased at the bolting stage for both the two varieties. At the flowering stage, the Pn, the activities of Rubisco, AGPase, SuSy, SPS and contents of sucrose, starch increased with more N application for both ZS 9 and GH01. Compared to the plants without waterlogging, the Pn and Rubisco activity for waterlogged plants of the two varieties increased; the waterlogged plants of tolerant variety had higher activities of AGPase, SuSy and SPS, while those of sensitive variety was significantly lower. However, the decreased starch and sucrose content were found in both tolerant and sensitive varieties. The activities of AGPase, SuSy and SPS at flowering were highly positively correlated with yield under the interactive effects of N and waterlogging. These results suggested that the flowering stage is the most important stage that N had the positive regulation on waterlogged rapeseed growth. The carbohydrates translocation from leaves to seeds of the tolerant variety were enhanced after waterlogging, while that of the sensitive variety was still inhibited. This was the main reason for the difference in yield between the two waterlogged varieties.
Journal of Agronomy and Crop Science – Wiley
Published: Dec 1, 2020
Keywords: ; ; ; ;
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