Chinese Journal OF Rice Science ›› 2017, Vol. 31 ›› Issue (3): 278-287.DOI: 10.16819/j.1001-7216.2017.6135 278
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Jijie HU1,#, Lianfeng ZHU1,#, Chu ZHONG1,2, Yujiong LIN1, Junhua ZHANG1, Xiaochuang CAO1, Shengmiao YU1, Bohr JAMES Allen1, Qianyu JIN1,*()
Received:
2016-10-09
Revised:
2016-11-19
Online:
2017-05-10
Published:
2017-05-10
Contact:
Qianyu JIN
胡继杰1,#, 朱练峰1,#, 钟楚1,2, 林育炯1, 张均华1, 曹小闯1, 禹盛苗1, Allen Bohr JAMES1, 金千瑜1,*()
通讯作者:
金千瑜
基金资助:
CLC Number:
Jijie HU, Lianfeng ZHU, Chu ZHONG, Yujiong LIN, Junhua ZHANG, Xiaochuang CAO, Shengmiao YU, Bohr JAMES Allen, Qianyu JIN. Effects of Aeration Methods on Photosynthetic Characteristics and Yield of Rice[J]. Chinese Journal OF Rice Science, 2017, 31(3): 278-287.
胡继杰, 朱练峰, 钟楚, 林育炯, 张均华, 曹小闯, 禹盛苗, Allen Bohr JAMES, 金千瑜. 增氧模式对水稻光合特性及产量的影响[J]. 中国水稻科学, 2017, 31(3): 278-287.
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URL: http://www.ricesci.cn/EN/10.16819/j.1001-7216.2017.6135 278
Fig. 1. Dynamic of rice leaf SPAD values under different aeration treatments. T, Tillering stage; J, Jointing stage; FH, Full heading stage; M, Milky stage; D, Dough stage; T1, Calcium peroxide treatment; T2, Micro-bubble aerated water irrigation; T3, Water-controlled irrigation; CK, Water-logging irrigation. The same as below.
Fig. 2. Leaf area index in rice under different aeration treatments. Values for the same stage above the bars followed by the same letter indicate no significant difference at 0.05 level.
品种 Variety | 处理 Treatment | 干物质量 Dry matter accumulation in plant/(t·hm-2) | 干物质积累量(比例) Dry matter accumulation/(t·hm-2) (its ratio to total/%) | ||||
---|---|---|---|---|---|---|---|
拔节期 J | 齐穗期 FH | 完熟期 FR | 播种期–拔节期 From S to J | 拔节期–齐穗期 From J to FH | 齐穗期–完熟期 From FH to FR | ||
中浙优1号Zhongzheyou 1 | T1 | 3.75 a | 9.45 a | 15.19 a | 3.75 a 24.69 3.68 ab 25.75 3.47 b 27.49 3.62 ab 27.88 3.73 a 23.55 3.79 a 25.61 3.45 b 26.01 3.63 a 26.00 3.67 a 27.46 3.43 ab 27.72 3.18 b 29.37 3.42 ab 28.58 | 5.70 a 37.52 5.63 a 39.39 5.25 b 41.59 5.15 b 39.66 6.31 a 39.84 6.07 b 41.01 5.34 d 40.26 5.81 c 41.62 3.65 a 27.31 3.63 a 29.34 2.95 b 27.25 3.46 a 28.92 | 5.74 a 37.79 4.98 b 34.86 3.90 c 30.92 4.21 c 32.46 5.80 a 36.62 4.94 b 33.38 4.48 c 33.74 4.52 c 32.38 6.05 a 45.23 5.31 b 42.95 4.70 c 43.38 5.09 b 42.50 |
T2 | 3.68 ab | 9.31 a | 14.29 b | ||||
T3 | 3.47 b | 8.72 b | 12.62 c | ||||
CK | 3.62 ab | 8.77 b | 12.98 c | ||||
IR45765-3B | T1 | 3.73 a | 10.04 a | 15.84 a | |||
T2 | 3.79 a | 9.86 a | 14.80 b | ||||
T3 | 3.45 b | 8.79 c | 13.27 d | ||||
CK | 3.63 a | 9.44 b | 13.96 c | ||||
中旱221 Zhonghan 221 | T1 | 3.67 a | 7.32 a | 13.37 a | |||
T2 | 3.43 ab | 7.06 ab | 12.37 b | ||||
T3 | 3.18 b | 6.13 c | 10.83 c | ||||
CK | 3.42 ab | 6.88 b | 11.97 b |
Table 1 Dry matter accumulation of rice plants under different aeration treatment.
品种 Variety | 处理 Treatment | 干物质量 Dry matter accumulation in plant/(t·hm-2) | 干物质积累量(比例) Dry matter accumulation/(t·hm-2) (its ratio to total/%) | ||||
---|---|---|---|---|---|---|---|
拔节期 J | 齐穗期 FH | 完熟期 FR | 播种期–拔节期 From S to J | 拔节期–齐穗期 From J to FH | 齐穗期–完熟期 From FH to FR | ||
中浙优1号Zhongzheyou 1 | T1 | 3.75 a | 9.45 a | 15.19 a | 3.75 a 24.69 3.68 ab 25.75 3.47 b 27.49 3.62 ab 27.88 3.73 a 23.55 3.79 a 25.61 3.45 b 26.01 3.63 a 26.00 3.67 a 27.46 3.43 ab 27.72 3.18 b 29.37 3.42 ab 28.58 | 5.70 a 37.52 5.63 a 39.39 5.25 b 41.59 5.15 b 39.66 6.31 a 39.84 6.07 b 41.01 5.34 d 40.26 5.81 c 41.62 3.65 a 27.31 3.63 a 29.34 2.95 b 27.25 3.46 a 28.92 | 5.74 a 37.79 4.98 b 34.86 3.90 c 30.92 4.21 c 32.46 5.80 a 36.62 4.94 b 33.38 4.48 c 33.74 4.52 c 32.38 6.05 a 45.23 5.31 b 42.95 4.70 c 43.38 5.09 b 42.50 |
T2 | 3.68 ab | 9.31 a | 14.29 b | ||||
T3 | 3.47 b | 8.72 b | 12.62 c | ||||
CK | 3.62 ab | 8.77 b | 12.98 c | ||||
IR45765-3B | T1 | 3.73 a | 10.04 a | 15.84 a | |||
T2 | 3.79 a | 9.86 a | 14.80 b | ||||
T3 | 3.45 b | 8.79 c | 13.27 d | ||||
CK | 3.63 a | 9.44 b | 13.96 c | ||||
中旱221 Zhonghan 221 | T1 | 3.67 a | 7.32 a | 13.37 a | |||
T2 | 3.43 ab | 7.06 ab | 12.37 b | ||||
T3 | 3.18 b | 6.13 c | 10.83 c | ||||
CK | 3.42 ab | 6.88 b | 11.97 b |
品种 Variety | 处理 Treatment | 单位有效穗数 Effective panicle number per/m2 | 每穗粒数 Grain number per panicle | 千粒重 1000-grain weight/g | 结实率 Seed-setting rate/% | 产量 Yield/(t·hm-2) |
---|---|---|---|---|---|---|
中浙优1号Zhongzheyou 1 | T1 | 175.0 a | 199.7 ab | 27.69 a | 90.5 a | 7.93 a |
T2 | 171.3 a | 197.4 b | 27.73 a | 89.9 a | 7.38 b | |
T3 | 155.3 b | 200.7 ab | 27.79 a | 83.9 c | 6.10 d | |
CK | 161.2 b | 203.7 a | 27.69 a | 86.6 b | 6.48 c | |
IR45765-3B | T1 | 221.8 a | 164.6 a | 27.84 a | 87.4 a | 8.09 a |
T2 | 215.8 a | 162.6 a | 27.80 a | 86.4 a | 7.57 b | |
T3 | 201.9 b | 163.7 a | 27.67 a | 81.2 c | 6.28 d | |
CK | 207.0 b | 165.7 a | 27.78 a | 83.5 b | 6.84 c | |
中旱221 Zhonghan 221 | T1 | 225.6 a | 165.0 a | 21.81 a | 91.8 a | 7.48 a |
T2 | 222.6 ab | 165.9 a | 21.65 a | 91.1 a | 6.89 b | |
T3 | 213.3 b | 169.1 a | 21.83 a | 88.0 b | 5.94 d | |
CK | 215.8 b | 167.0 a | 21.94 a | 88.5 b | 6.33 c |
Table 2 Yield and its components of rice under different aeration treatment.
品种 Variety | 处理 Treatment | 单位有效穗数 Effective panicle number per/m2 | 每穗粒数 Grain number per panicle | 千粒重 1000-grain weight/g | 结实率 Seed-setting rate/% | 产量 Yield/(t·hm-2) |
---|---|---|---|---|---|---|
中浙优1号Zhongzheyou 1 | T1 | 175.0 a | 199.7 ab | 27.69 a | 90.5 a | 7.93 a |
T2 | 171.3 a | 197.4 b | 27.73 a | 89.9 a | 7.38 b | |
T3 | 155.3 b | 200.7 ab | 27.79 a | 83.9 c | 6.10 d | |
CK | 161.2 b | 203.7 a | 27.69 a | 86.6 b | 6.48 c | |
IR45765-3B | T1 | 221.8 a | 164.6 a | 27.84 a | 87.4 a | 8.09 a |
T2 | 215.8 a | 162.6 a | 27.80 a | 86.4 a | 7.57 b | |
T3 | 201.9 b | 163.7 a | 27.67 a | 81.2 c | 6.28 d | |
CK | 207.0 b | 165.7 a | 27.78 a | 83.5 b | 6.84 c | |
中旱221 Zhonghan 221 | T1 | 225.6 a | 165.0 a | 21.81 a | 91.8 a | 7.48 a |
T2 | 222.6 ab | 165.9 a | 21.65 a | 91.1 a | 6.89 b | |
T3 | 213.3 b | 169.1 a | 21.83 a | 88.0 b | 5.94 d | |
CK | 215.8 b | 167.0 a | 21.94 a | 88.5 b | 6.33 c |
[1] | 国家统计局. 中国统计年鉴. 北京:中国统计出版社,2014. |
National Bureau of Statistics. China Statistical Yearbook. Bejing: China Statistics Press, 2014. | |
[2] | 陈永华,严钦泉,肖国樱. 水稻耐淹涝的研究进展. 中国农学通报,2005,21(12):151-153. |
Chen Y H, Yan Q Q, Xiao G Y.Progresses in research of submergence tolerance in rice.Chin Agric Sci Bull, 2005, 21(12): 151-153. (in Chinese with English abstract) | |
[3] | Perata P, Armstrong W, Voesenek L A C J. Plants and flooding stress.New Phytol, 2011, 190(2): 269-273. |
[4] | 刘占军,艾超,徐新朋,张倩,吕家珑,周卫. 低产水稻土改良与管理研究策略. 植物营养与肥料学报,2015,21(2):509-516. |
Liu Z J, Ai C, Xu X P, Zhang Q, Lv J L, Zhou W.Research strategy of reclamation and management for low-yield rice paddy soils.Plant Nutr Fert Sci, 2015, 21(2): 509-516. (in Chinese with English abstract) | |
[5] | Hole D J, Cobb B G, Hole P S, Drew M C.Enhancement of anaerobic respiration in root tips of zea mays following low-oxygen (hypoxic) acclimation.Plant Physiol, 1992, 99(1): 213-218. |
[6] | Joshi R, Shukla A, Mani S C, Kumar P.Hypoxia induced non-apoptotic cellular changes during aerenchyma formation in rice (Oryza sativa L.) roots.Physiol Mol Biol Plants, 2010, 16(1): 99-106. |
[7] | 徐春梅,陈丽萍,王丹英,陈松,章秀福,石庆华. 低氧胁迫对水稻幼苗根系功能和氮代谢相关酶活性的影响. 中国农业科学,2016,49(8):1625-1634. |
Xu C M, Chen L P, Wang D Y, Chen S, Zhang X F, Shi Q H.Effects of low oxygen stress on the root function and enzyme activities related to nitrogen metabolism in roots of rice seedlings.Sci Agric Sin, 2016, 49(8): 1625-1634. (in Chinese with English abstract) | |
[8] | Patel D P, Das A, Munda G C, Ghosh P K, Bordoloi J S, Kumar M.Evaluation of yield and physiological attributes of high-yielding rice varieties under aerobic and flood-irrigated management practices in mid-hills ecosystem.Agric Water Mgt, 2010, 97(9): 1269-1276. |
[9] | 梅少华,梅金先,陈兴国,张世春,程应德,詹文忠,廖继雨,吕银松. 洪涝灾害对水稻生产的影响评估及抗灾对策研究. 作物杂志,2011(2):89-93. |
Mei S H, Mei J X, Chen X G, Zhang S C, Cheng Y D, Zhan W Z, Liao J Y, Lv Y S. Flood impact assessment of rice production and disaster countermeasures.Crops, 2011(2): 89-93. (in Chinese with English abstract) | |
[10] | 宁金花,陆魁东,霍治国,解娜,黄晚华. 拔节期淹涝胁迫对水稻形态和产量构成因素的影响. 生态学杂志,2014,33(7):1818-1825. |
Ning J H, Lu K D, Huo Z G, Xie N, Huang W H.Effects of waterlogging stress on rice morphology and yield component at the jointing stage.Chin J Ecol, 2014, 33(7): 1818-1825. (in Chinese with English abstract) | |
[11] | 徐富贤,张林,熊洪,周兴兵,朱永川,刘茂,蒋鹏,郭晓艺. 杂交水稻中后期洪涝淹没与产量损失的关系. 作物学报,2016,42(9):1381-1390. |
Xu F X, Zhang L, Xiong H, Zhou X B, Zhu Y C, Liu M, Jiang P, Guo X Y.Relationship between yield loss and flooding during middle and later growth periods in hybrid rice.Acta Agron Sin, 2016, 42(9): 1381-1390. (in Chinese with English abstract) | |
[12] | Aroca R, Porcel R, Ruiz-Lozano J M. Regulation of root water uptake under abiotic stress conditions.J Exp Bot, 2012, 63(1): 43-57. |
[13] | 章秀福,王丹英,屈衍艳,李华. 垄畦栽培水稻的植株形态与生理特性研究. 作物学报,2005,31(6):742-748. |
Zhang X F, Wang D Y, Qu Y Y, Li H.Morphological and physiological characteristics of raised bed-cultivated rice.Acta Agron Sin, 2005, 31(6): 742-748. (in Chinese with English abstract) | |
[14] | 潘圣刚,曹凑贵,蔡明历,汪金平,王若涵,原保忠,翟晶. 不同灌溉模式下氮肥水平对水稻氮素利用效率、产量及其品质的影响. 植物营养与肥料学报,2009,15(2):283-289. |
Pan S G, Cao C G, Cai M L, Wang J P, Wang R H, Yuan B Z, Zhai J.Effects of nitrogen application on nitrogen use efficiency, grain yields and qualities of rice under different water regimes.Plant Nutr Fert Sci, 2009, 15(2): 283-289. (in Chinese with English abstract) | |
[15] | 赵锋,王丹英,徐春梅,张卫建,李凤博,毛海军,章秀福. 根际增氧模式的水稻形态、生理及产量响应特征. 作物学报,2010,36(2):303-312. |
Zhao F, Wang D Y, Xu C M, Zhang W J, Li F B, Mao H J, Zhang X F.Response of morphological, physiological and yield characteristics of rice (Oryza sativa L.) to different oxygen-increasing patterns in rhizosphere.Acta Agron Sin, 2010, 36(2): 303-312. (in Chinese with English abstract) | |
[16] | 朱练峰,刘学,禹盛苗,欧阳由男,金千瑜. 增氧灌溉对水稻生理特性和后期衰老的影响. 中国水稻科学,2010,24(3):257-263. |
Zhu L F, Liu X, Yu S M, Ouyang Y N, Jin Q Y.Effects of aerated irrigation on physiological characteristics and senescence at late growth stage of rice.Chin J Rice Sci, 2010, 24(3): 257-263. (in Chinese with English abstract) | |
[17] | 朱练峰,张均华,禹盛苗,胡志华,金千瑜. 磁化水灌溉促进水稻生长发育提高产量和品质. 农业工程学报,2014,30(19):107-114. |
Zhu L F, Zhang J H, Yu S M, Hu Z H, Jin Q Y.Magnetized water irrigation enhanced rice growth and development, improved yield and quality.Trans Chin Soc Agric Eng, 2014, 30(19): 107-114. (in Chinese with English abstract) | |
[18] | 徐春梅,王丹英,陈松,陈丽萍,章秀福. 增氧对水稻根系生长与氮代谢的影响. 中国水稻科学,2012,26(3):320-324. |
Xu C M, Wang D Y, Chen S, Chen L P, Zhang X F.Effect of aeration on root growth and nitrogen metabolism in rice.Chin J Rice Sci, 2012, 26(3): 320-324. (in Chinese with English abstract) | |
[19] | 徐春梅,谢涛,王丹英,陈松,计成林,章秀福,石庆华. 根际氧浓度对水稻分蘖期养分吸收和根系形态的影响. 中国水稻科学,2015,29(6):619-627. |
Xu C M, Xie T, Wang D Y, Chen S, Ji C L, Zhang X F, Shi Q H.Effects of rhizosphere oxygen concentration on nutrient uptake and root morphology of rice at tillering stage.Chin J Rice Sci, 2015, 29(6): 619-627. (in Chinese with English abstract) | |
[20] | 刘法谋. 根际氧水平对不同类型水稻形态与生理特性的影响. 北京:中国农业科学院,2011. |
Liu F M.Effect of rhizosphere dissilved oxygen levels on morphological and physiological characteristics in different types of rice (Oryza sativa L.). Bejing: Chinese Academy of Agricultural Sciences, 2011. | |
[21] | 周振翔,李志康,戴琪星,孔祥胜,王志琴,顾俊飞. 水稻光合生理限制因素及改善途径研究. 中国稻米,2015,21(4):25-32. |
Zhou Z X, Li Z K, Dai Q X, Kong X S, Wang Z Q, Gu J F.Physiological limitations and possible improve approaches of rice photosynthesis.China Rice, 2015, 21(4): 25-32. (in Chinese with English abstract) | |
[22] | 邹桂花,梅捍卫,余新桥,刘鸿艳,刘国兰,李名寿,罗利军. 不同灌水量对水、旱稻营养生长和光合特性及其产量的影响. 作物学报,2006,32(8):1179-1183. |
Zou G H, Mei H W, Yu X Q, Liu H Y, Liu G L, Li M S, Luo L J.Effects of different water supply treatment on vegetative growth, photosynthetic characteristics and grain yield in paddy and upland rice.Acta Agron Sin, 2006, 32(8): 1179-1183. (in Chinese with English abstract) | |
[23] | 王唯逍,刘小军,田永超,姚霞,曹卫星,朱艳. 不同土壤水分处理对水稻光合特性及产量的影响. 生态学报,2012,32(22):7053-7060. |
Wang W X, Liu X J, Tian Y C, Yao X, Cao W X, Zhu Y.Effects of different soil water treatments on photosynthetic characteristics and grain yield in rice.Acta Ecol Sin, 2012, 32(22): 7053-7060. (in Chinese with English abstract) | |
[24] | 林贤青,朱德峰,李春寿,阮关海,张玉屏,陈惠哲. 水稻不同灌溉方式下的高产生理特性. 中国水稻科学,2005,19(4):328-332. |
Lin X Q, Zhu D F, Li C S, Ruan G H, Zhang Y P, Chen H Z.Physiological characteristics of high yielding rice under different irrigation methods.Chin J Rice Sci, 2005, 19(4): 328-332. (in Chinese with English abstract) | |
[25] | 郑华斌,刘建霞,姚林,贺慧,黄璜. 垄作梯式生态稻作对水稻光合生理特性及产量的影响. 应用生态学报,2014,25(9):2598-2604. |
Zheng H B, Liu J X, Yao L, He H, Huang H.Effect of ridge & terraced ecological rice farming on rice photosynthetic characteristics and yield.Chin J Appl Ecol, 2014, 25(9): 2598-2604. (in Chinese with English abstract) | |
[26] | Li Y, Gao Y X, Xu X M, Shen Q R, Guo S W.Light-saturated photosynthetic rate in high-nitrogen rice (Oryza sativa L.) leaves is related to chloroplastic CO2 concentration.J Exp Bot, 2009, 60(8): 2351-2360. |
[27] | 徐晨,凌风楼,徐克章,武志海,刘晓龙,安久海,赵兰坡. 盐胁迫对不同水稻品种光合特性和生理生化特性的影响. 中国水稻科学,2013,27(3):280-286. |
Xu C, Ling F L, Xu K Z, Wu Z H, Liu X L, An J H, Zhao L P.Effect of salt stress on photosynthetic characteristics and physiological and biochemical traits of different rice varteities.Chin J Rice Sci, 2013, 27(3): 280-286. (in Chinese with English abstract) | |
[28] | 陈星,李亚娟,刘丽,方素萍,方萍,林咸永. 灌溉模式和供氮水平对水稻氮素利用效率的影响. 植物营养与肥料学报,2012,18(2):283-290. |
Chen X, Li Y J, Liu L, Fang S P, Fang P, Lin X Y.Effects of water management patterns and nitrogen fertilizer levels on nitrogen use efficiency of rice.Plant Nutr Fert Sci, 2012, 18(2): 283-290. (in Chinese with English abstract) | |
[29] | Colmer T D.Aerenchyma and an inducible barrier to radial oxygen loss facilitate root aeration in upland, paddy and deep-water rice (Oryza sativa L.).Ann Bot, 2003, 91: 301-309. |
[30] | Zhang Y B, Tang Q Y, Zou Y B, Li D Q, Qin J Q, Yang S H, Chen L J, Xia B, Peng S B.Yield potential and radiation use efficiency of “super” hybrid rice grown under subtropical conditions.Field Crops Res, 2009, 114(1): 91-98. |
[31] | 王丹英,韩勃,章秀福,邵国胜,徐春梅,符冠富. 水稻根际含氧量对根系生长的影响. 作物学报,2008,34(5):803-808. |
Wang D Y, Han B, Zhang X F, Shao G S, Xu C M, Fu G F.Influence of rhizosphere oxygen concentration on rice root growth.Acta Agron Sin, 2008, 34(5): 803-808. (in Chinese with English abstract) | |
[32] | 赵霞,徐春梅,王丹英,陈松,陶龙兴,章秀福. 根际溶氧量对分蘖期水稻生长特性及其氮素代谢的影响. 中国农业科学,2015,48(18):3733-3742. |
Zhao X, Xu C M, Wang D Y, Chen S, Tao L X, Zhang X F.Effect of rhizosphere oxygen on the growth characteristics of rice and its nitrogen metabolism at tillering Stage.Sci Agric Sin, 2015, 48(18): 3733-3742. (in Chinese with English abstract) | |
[33] | 付景,陈露,黄钻华,王志琴,杨建昌. 超级稻叶片光合特性和根系生理性状与产量的关系. 作物学报,2012,38(7):1264-1276. |
Fu J, Chen L, Huang Z H, Wang Z Q, Yang J C.Relationship of leaf photosynthetic characteristics and root physiological traits with grain yield in super rice.Acta Agron Sin, 2012, 38(7): 1264-1276. (in Chinese with English abstract) | |
[34] | 徐俊增,彭世彰,魏征,侯会静. 不同供氮水平及水分调控条件下水稻光合作用光响应特征. 农业工程学报,2012,28(2):72-76. |
Xu J Z, Peng S Z, Wei Z, Hou H J.Characteristics of rice leaf photosynthetic light response curve with different water nd nitrogen regulation.Trans Chin Soc Agric Eng, 2012, 28(2): 72-76. (in Chinese with English abstract) | |
[35] | 陆红飞,郭相平,甄博,王振昌,周新国,李小朴. 旱涝交替胁迫条件下粳稻叶片光合特性. 农业工程学报,2016,32(8):105-112. |
Lu H F, Guo X P, Zhen B, Wang Z C, Zhou X G, Li X P.Photosynthetic characteristics of Japonica rice leaves under alternative stress of drought and waterlogging.Trans Chin Soc Agric Eng, 2016, 32(8): 105-112. (in Chinese with English abstract) | |
[36] | 李杰,张洪程,常勇,龚金龙,郭振华,戴其根,霍中洋,许轲,魏海燕,高辉. 不同种植方式水稻高产栽培条件下的光合物质生产特征研究. 作物学报,2011,37(7):1235-1248. |
Li J, Zhang H C, Chang Y, Gong J L, Guo Z H, Dai Q G, Huo Z Y, Xu K, Wei H Y, Gao H.Characteristics of photosynthesis and matter production of rice with different planting methods under high-yielding cultivation condition.Acta Agron Sin, 2011, 37(7): 1235-1248. (in Chinese with English abstract) | |
[37] | 邓飞,王丽,刘利,刘代银,任万军,杨文钰. 不同生态条件下栽培方式对水稻干物质生产和产量的影响. 作物学报,2012,38(10):1930-1942. |
Deng F, Wang L, Liu L, Liu D Y, Ren W J, Yang W Y.Effects of cultivation methods on dry matter production and yield of rice under different ecological conditions.Acta Agron Sin, 2012, 38(10): 1930-1942. (in Chinese with English abstract) | |
[38] | 林贤青,周伟军,朱德峰,张玉屏. 稻田水分管理方式对水稻光合速率和水分利用率的影响. 中国水稻科学,2004,18(4):333-338. |
Lin X Q, Zhou W J, Zhu D F, Zhang Y P.Effect of water management on photosynthetic rate and water use efficiency of leaves in paddy rice.Chin J Rice Sci, 2004, 18(4): 333-338. (in Chinese with English abstract) | |
[39] | 马均,朱庆森,马文波,田彦华,杨建昌,周开达. 重穗型水稻光合作用、物质积累与运转的研究. 中国农业科学,2003,36(4):375-381. |
Ma J, Zhu Q S, Ma W B, Tian Y H, Yang J C, Zhou K D.Studies on the photosynthetic characteristics and accumulation and transformation of assimilation product in heavy panicle type of rice.Sci Agric Sin, 2003, 36(4): 375-381. (in Chinese with English abstract) | |
[40] | 翟虎渠,曹树青,万建民,陆巍,张荣铣,李良璧,匡廷云,闵绍楷朱德峰,程式华. 超高产杂交稻灌浆期光合功能与产量的关系. 中国科学:C辑,2002,32(3):211-217. |
Zhai H Q, Cao S Q, Wan J M, Lu W, Zhang R X, Li L B, Kuang T Y, Min S K, Zhu D F, Cheng S H.The relationship between photosynthetic function and grain yield at filling stage of super-high-yield hybrid rice.Sci China (Ser C), 2002, 32(3): 211-217. (in Chinese) | |
[41] | 赵锋,张卫建,章秀福,王丹英,徐春梅. 稻田增氧模式对水稻籽粒灌浆的影响. 中国水稻科学,2011,25(6):605-612. |
Zhao F, Zhang W J, Zhang X F, Wang D Y, Xu C M.Effects of oxygen-increasing patterns in paddy fields on rice grain-filling.Chin J Rice Sci, 2011, 25(6): 605-612. (in Chinese with English abstract) |
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