[1] 屈洋, 苏旺, 李翠, 高金锋, 高小丽, 王鹏科, 冯佰利, 柴岩. 陕北半干旱区沟垄覆膜集水模式下糜子边际效应及生理特性. 应用生态学报, 2014, 25(3): 776–782
Qu Y, Su W, Li C, Gao J F, Gao X L, Wang P K, Feng B L, Chai Y. Border effect and physiological characteristics of broomcorn millet under film mulching on ridge-furrow for harvesting rainwater model in the semi-arid region of Northern Shaanxi, China. Chin J Appl Ecol, 2014, 25(3): 776–782 (in Chinese with English abstract)
[2] Li X Y, Gong J D. Effect of different ridge: Furrow ratios and supplemental irrigation on crop production in ridge and furrow rainfall harvesting system with mulches. Agr Water Manag, 2002, 54: 243–254
[3] Li F M, Guo A H, Wei H. Effects of clear plastic film mulch on yield of spring wheat. Field Crop Res, 1999, 63: 79–86
[4] Fisher P D. An alternative plastic mulching system for improved water management in dryland maize production. Agr Water Manag, 1995, 27: 155–166
[5] Zhang S, Lövdahl L, Grip H, Tong Y, Yang X, Wang Q. Effects of mulching and catch cropping on soil temperature, soil moisture and wheat yield on the Loess Plateau of China. Soil Till Res, 2009, 102: 78–86
[6] Ramakrishna A, Tam H M, Wani S P, Long T D. Effect of mulch on soil temperature, moisture, weed infestation and yield of groundnut in northern Vietnam. Field Crop Res, 2006, 95: 115–125
[7] Niu J Y, Gan Y T, Zhang J W, Yang Q F. Postanthesis dry matter accumulation and redistribution in spring wheat mulched with plastic film. Crop Sci, 1998, 38: 1562–1568
[8] Ren X, Chen X, Jia Z. Ridge and furrow method of rainfall concentration for fertilizer use efficiency in farmland under semiarid conditions. Appl Eng Agric, 2009, 25: 905–913
[9] Dong H Z, Li W J, Tang W, Zhang D M. Early plastic mulching increases stand establishment and lint yield of cotton in saline fields. Field Crop Res, 2009, 111: 269–275
[10] Ibarra-Jiménez L, Quezada-Martin M R, de la Rosa-Ibarra M. The effect of plastic mulch and row covers on the growth and physiology of cucumber. Aust J Exp Agr, 2004, 44: 91–94
[11] Li F M, Wang J, Xu J Z, Xu H L. Productivity and soil response to plastic film mulching durations for spring wheat on entisols in the semiarid Loess Plateau of China. Soil Till Res, 2004, 78: 9–20
[12] 王彩绒, 田霄鸿, 李生秀. 沟垄覆膜集雨栽培对冬小麦水分利用效率及产量的影响. 中国农业科学, 2004, 37: 208–214
Wang C R, Tian X H, Li S X. Effects of plastic sheet-mulching on ridge for rainwater-harvesting cultivation on WUE and yield of winter wheat. Sci Agric Sin, 2004, 37: 208–214 (in Chinese with English abstract)
[13] Zhang S, Li P, Yang X, Wang Z, Chen X. Effects of tillage and plastic mulch on soil water, growth and yield of spring-sown maize. Soil Till Res, 2011, 112: 92-97
[14] Wang X L, Li F M, Jia Y, Shi W Q. Increasing potato yields with additional water and increased soil temperature. Agric Water Manag, 2005, 78: 181–194
[15] 丁瑞霞, 贾志宽, 韩清芳, 任广鑫, 王俊鹏. 宁南旱区微集水种植条件下谷子边际效应和生理特性的响应. 中国农业科学, 2006, 39: 494–501
Ding R X, Jia Z K, Han Q F, Ren G X, Wang J P. Border effect and physiological characteristic responses of foxtail millet to different micro-catchment stripshapes in semiarid region of South Ningxia. Sci Agric Sin, 2006, 39: 494–501 (in Chinese with English abstract)
[16] 寇江涛, 师尚礼, 周万海, 尹国丽, 李建伟. 垄覆膜集雨种植对二年龄苜蓿草地土壤养分的影响. 草业学报, 2011, 20(5): 207–216
Kou J T, Shi S L, Zhou W H, Yin G L, Li J W. Soil nutrient in two-year alfalfa field on condition of film-mulching rainfall harvesting cultivation. Acta Pratac Sin, 2011, 20(5): 207–216 (in Chinese with English abstract)
[17] 朱兆良, 金继运.保障我国粮食安全的肥料问题. 植物营养与肥料学报, 2013, 19: 259–273
Zhu Z L, Jin J Y. Fertilizer use and food security in China. Plant Nutr Fert Sci, 2013, 19: 259–273 (in Chinese with English abstract)
[18] 同延安, 赵营, 赵护兵, 樊红柱.施氮量对冬小麦氮素吸收、转运及产量的影响. 植物营养与肥料学报, 2007, 13: 64–69
Tong Y A, Zhao Y, Zhao H B, Fan H Z. Effect of N rates on N uptake, transformation and the yield of winter wheat. Plant Nutr Fert Sci, 2007, 13: 64–69 (in Chinese with English abstract)
[19] Wang Y C, Wang E L, Wang D L, Huang S M, Ma Y B, Smith C J, Wang L G. Crop productivity and nutrient use efficiency as affected by long-term fertilisation in North China Plain. Nutr Cycl Agroecos, 2010, 86: 105–119
[20] 杨宪龙, 路永莉, 同延安, 林文, 梁婷. 长期施氮和秸秆还田对小麦-玉米轮作体系土壤氮素平衡的影响. 植物营养与肥料学报, 2013, 19: 65–73
Yang X L, Lu Y L, Tong Y A, Lin W, Liang T. Effects of long-term N application and straw returning on N budget under wheat-maize rotation system. Plant Nutr Fert Sci, 2013, 19: 65–73 (in Chinese with English abstract)
[21] Liu K S, Wiatrak P. Corn production response to tillage and nitrogen application in dry-land environment. Soil Till Res, 2012, 124: 138–143
[22] 韩宝吉, 曾祥明, 卓光毅, 徐芳森, 姚忠清, 肖习明, 石磊. 氮肥施用措施对湖北中稻产量, 品质和氮肥利用率的影响. 中国农业科学, 2011, 44: 842–850
Han B J, Zeng X M, Zhuo G Y, Xu F S, Yao Z Q, Xiao X M, Shi L. Yield, grain quality and N-use efficiency of midseason rice in Hubei Province. Sci Agric Sin, 2011, 44: 842–850 (in Chinese with English abstract)
[23] Chen X P, Zhou J C, Wang X R, Zhang F S, Bao D J, Jia X H. Economic and environmental evaluation on models for describing crop yield response to nitrogen fertilizers at winter-wheat and summer-corn rotation system. Acta Pedol Sin, 2000, 37: 346–354
[24] 郭增江, 于振文, 石玉, 赵俊晔, 张永丽, 王东.不同土层测墒补灌对小麦旗叶光合特性和干物质积累与分配的影响. 作物学报, 2014, 40: 731–738
Guo Z J, Yu Z W, Shi Y, Zhao J Y, Zhang Y L, Wang D. Photosynthesis characteristics of flag and dry matter accumulation and allocation in winter wheat under supplemental irrigation after measuring moisture content in different soil layers. Acta Agron Sin, 2014, 40: 731–738 (in Chinese with English abstract)
[25] 胡梦芸, 张正斌, 徐萍, 董宝娣, 李魏强, 李景娟. 亏缺灌溉下小麦水分利用效率与光合产物积累运转的相关研究. 作物学报, 2007, 33: 1884––1891
Hu M Y, Zhang Z B, Xu P, Dong B D, Li W Q. Relationship of water use efficiency with photoassimilate accumulation and transport in wheat under deficit irrigation. Acta Agron Sin, 2007, 33: 1884–1891 (in Chinese with English abstract)
[26] Hikosaka K. Interspecific difference in the photosynthesis-nitrogen relationship: patterns, physiological causes, and ecological importance. J Plant Res, 2004, 117: 481–494
[27] Bartels D, Sunkar R. Drought and salt tolerance in plants. Crit Rev Plant Sci, 2005, 24: 23–58
[28] Logan B A, Demmig-Adams B, Adams W W, Grace S C. Antioxidants and xanthophyll cycle-dependent energy dissipation in Cucurbita pepo L. and Vinca major L. acclimated to four growth PPFDs in the field. J Exp Bot, 1998, 49: 1869–1879
[29] Lone P M, Khan N A. The effects of rate and timing of N fertilizer on growth, photosynthesis, N accumulation and yield of mustard (Brassica juncea) subjected to defoliation. Environ Exp Bot, 2007, 60: 318–323
[30] 张兴华, 高杰, 杜伟莉, 张仁和, 薛吉全. 干旱胁迫对玉米品种苗期叶片光合特性的影响. 作物学报, 2015, 41: 154–159
Zhang X H, Gao J, Du W L, Zhang R H, Xue J Q. Effects of drought stress on photosynthetic characteristics of maize hybrids at seedling stage. Acta Agron Sin, 2015, 41: 154–159 (in Chinese with English abstract)
[31] Chernyad’ev I I. Effect of water stress on the photosynthetic apparatus of plants and the protective role of cytokinins: A review. Appl Biochem Micro, 2005, 41: 115–128
[32] Subrahmanyam D, Subash N, Haris A, Sikka K. 2006. Influence of water stress on leaf photosynthetic characteristics in wheat cultivars differing in their susceptibility to drought. Photosynthetica, 44: 125–129
[33] Shangguan Z P, Shao M A, Dyckmans J. Nitrogen nutrition and water stress effects on leaf photosynthetic gas exchange and water use efficiency in winter wheat. Environ Exp Bot, 2000, 44: 141–149
[34] Ueda A, Kanechi M, Uno Y, Inaqaki N. Photosynthetic limitations of a halophyte sea aster (Aster tripolium L) under water stress and NaCl stress. J Plant Res, 2003, 116: 65–70
[35] 王晓娟, 贾志宽, 梁连友, 丁瑞霞, 王敏, 李涵. 不同有机肥量对旱地玉米光合特性和产量的影响. 应用生态学报, 2012, 23: 419–425
Wang X J, Jia Z K, Liang L Y, Ding R X, Wang M, Li H. Effects of organic fertilizer application rate on leaf photosynthetic characteristics and grain yield of dryland maize. Chin J Appl Ecol, 2012, 23: 419–425 (in Chinese with English abstract)
[36] Klaus W, Michael J S. Analysis of stomatal and nonstomatal components in the environmental control of CO2 exchanges in leaves of Welwitschia mirabilis. Plant Physiol, 1986, 82: 173–178
[37] Farquhar G D, Sharkey T D. Stomatal conductance and photosynthesis. Ann Rev Plant Physiol, 1982, 33: 317–345
[38] Robredo A, Perez-Lopez U, Lacuesta M, Mena-Petite A, Munoz-Rueda A. Influence of water stress on photosynthetic characteristics in barley plants under ambient and elevated CO2 concentrations. Blol Plant, 2010, 54: 285–292
[39] Ghobadi M, Taherabadi S, Ghobadi M E, Mohammadi G R, Jalali-Honarmand S. Antioxidant capacity, photosynthetic characteristics and water relations of sunflower (Helianthus annuus L.) cultivars in response to drought stress. Ind Crop Prod, 2013, 50: 29–38
[40] Ashraf M, Ahmad A, McNeilly T. Growth and photosynthetic characteristics in pearl millet under water stress and different potassium supply. Photosynthetica, 2001, 39: 289–294
[41] Karkanis A, Bilalis D, Efthimiadou A. Architectural plasticity, photosynthesis and growth responses of velvetleaf (Abutilon theophrasti Medicus) plants to water stress in a semi-arid environment. Aust J Crop Sci, 2011, 5: 369–374
[42] 韩娟, 廖允成, 贾志宽, 韩清芳, 丁瑞霞. 半湿润偏旱区沟垄覆盖种植对冬小麦产量及水分利用效率的影响.作物学报,2014, 40: 101–109
Han J, Liao Y C, Jia Z K, Han Q F, Ding R X. Effects of ridging with mulching on yield and water use efficiency in winter wheat in semi-humid drought-prone region in China. Acta Agron Sin, 2014, 40: 101–109 (in Chinese with English abstract)
[43] 李儒, 崔荣美, 贾志宽, 韩清芳, 路文涛, 侯贤清. 不同沟垄覆盖方式对冬小麦土壤水分及水分利用效率的影响. 中国农业科学, 2011, 44: 3312–3322
Li R, Cui R M, Jia Z K, Han Q F, Lu W T, Hou X Q. Effects of different furrow-ridge mulching ways on soil moisture and water use efficiency of winter wheat. Sci Agric Sin, 2011, 44: 3312–3322 (in Chinese with English abstract)
[44] 李荣, 王敏, 贾志宽, 侯贤清, 杨宝平, 韩清芳, 聂俊峰, 张睿. 渭北旱塬区不同沟垄覆盖模式对春玉米土壤温度, 水分及产量的影响. 农业工程学报, 2012, 28(2): 106–113
Li R, Wang M, Jia Z K, Hou X Q, Yang B P, Han Q F, Nie J F, Zhang R. Effects of different mulching patterns on soil temperature, moisture water and yield of spring maize in Weibei Highland. Trans. Chin Soc Agric Eng, 2012, 28(2): 106–113 (in Chinese with English abstract)
[45] 买自珍, 罗世武, 程炳文, 王勇. 玉米二元覆盖农田水分动态及水分利用效率研究. 中国生态农业学报, 2007, 15(3): 68–70
Mai Z Z, Luo S W, Cheng B W, Wang Y. Soil water content dynamics and water use efficiency under plastic film and straw dual-mulching in maize fields. Chin J Eco-Agric, 2007, 15(3): 68–70 (in Chinese with English abstract)
[46] 刘艳红, 贾志宽, 张睿, 刘婷, 马晓丽. 沟垄二元覆盖对旱地土壤水分及作物水分利用效率的影响. 干旱地区农业研究, 2010, 28(4): 152–157
Liu Y H, Jia Z K, Zhang R, Liu T, Ma X L. Effects of dual-mulching with plastic film and other mulching materials on soil water and WUE in semiarid region. Agri Res Arid Areas, 2010, 28(4): 152–157 (in Chinese with English abstract)
[47] 侯慧芝, 王娟, 张绪成, 方彦杰, 于显枫, 王红丽, 马一凡. 半干旱区全膜覆盖垄上微沟种植对土壤水热及马铃薯产量的影响. 作物学报, 2015, 41: 1582–1590
Hou H Z, Wang J, Zhang X C, Fang Y J, Yu X F, Wang H L, Ma Y F. Effects of mini-ditch planting with plastic mulching in ridges on soil water content, temperature and potato yield in rain-fed semiarid region. Acta Agron Sin, 2015, 41: 1582–1590 (in Chinese with English abstract)
[48] Evans J R. Nitrogen and photosynthesis in the flag leaf of wheat (Triticum aestivum L.). Plant physiol, 1983, 72: 297–302
[49] 陈贵, 周毅, 郭世伟, 沈其荣. 水分胁迫条件下不同形态氮素营养对水稻叶片光合效率的调控机理研究. 中国农业科学, 2007, 40: 2162–2168
Chen G, Zhou Y, Guo S, Shen Q R. The regulatory mechanism of different nitrogen form on photosynthetic efficiency of rice plants under water stress. Sci Agric Sin, 2007, 40: 2162–2168 (in Chinese with English abstract)
[50] Ookawa T, Naruoka Y, Sayama A, Hirasawa T. Cytokinin effects on ribulose-1, 5-bisphosphate carboxylase/oxygenase and nitrogen partitioning in rice during ripening. Crop Sci, 2004, 44: 2107–2115
[51] Imai K, Suzuki Y, Mae T, Makino A. Changes in the synthesis of Rubisco in rice leaves in relation to senescence and N influx. Ann Bot, 2008, 101: 135–144
[52] 吴自明, 王竹青, 李木英, 曾蕾, 石庆华, 潘晓华, 谭雪明.后期水分亏缺与增施氮肥对杂交稻叶片光合功能的影响. 作物学报, 2013, 39: 494–505
Wu Z M, Wang Z Q, Li M Y, Zeng L, Shi Q H, Pan X H, Tan X M. Effect of water shortage and increasing nitrogen application on photosynthetic function of different hybrid rice combinations at grain filling stage. Acta Agron Sin, 2013, 39: 494–505 (in Chinese with English abstract)
[53] Ma S C, Duan A W, Wang R, Guan Z M, Yang S J, Ma S T, Shao Y. Root-sourced signal and photosynthetic traits, dry matter accumulation and remobilization, and yield stability in winter wheat as affected by regulated deficit irrigation. Agric Water Manage, 2015, 148: 123–129
[54] Pepler S, Gooding M J, Ellis R H. Modeling simultaneously water content and dry matter dynamics of wheat grains. Field Crop Res, 2006, 95: 49–63
[55] 王俊, 李凤民, 宋秋华, 李世清. 地膜覆盖对土壤水温和春小麦产量形成的影响. 应用生态学报, 2003, 14: 205–210
Wang J, Li F M, Song Q H, Li S Q. Effects of plastic film mulching on soil temperature and moisture and on yield formation of spring wheat. Chin J Appl Ecol, 2003, 14: 205–210. (in Chinese with English abstract)
[56] 李华, 王朝辉, 李生秀. 地表覆盖和施氮对冬小麦干物质和氮素积累和转移的影响. 植物营养与肥料学报, 2008, 14: 1027–1034
Li H, Wang Z H, Li S X. Effect of soil surface mulching and N rate on dry matter and nitrogen accumulation and translocation of winter wheat. Plant Nutr Fert Sci, 2008, 14: 1027–1034 (in Chinese with English abstract)
[57] Liu J L, Zhan A, Bu L D, Zhu L, Luo S S, Chen X P, Cui Z L, Li S Q, Hill R L, Zhao Y. Understanding dry matter and nitrogen accumulation for high-yielding film-mulched maize. Agron J, 2014, 106: 390–396
[58] Tekalign T, Hammes P S. Growth and productivity of potato as influenced by cultivar and reproductive growth: I. Stomatal conductance, rate of transpiration, net photosynthesis, and dry matter production and allocation. Sci Hort, 2005, 105: 13–27
[59] Lahai M T, Ekanayake I J. Accumulation and distribution of dry matter in relation to root yield of cassava under a fluctuating water table in inland valley ecology. Afr J Biotechnol, 2009, 8: 4895–4905
[60] Di Paolo E, Rinaldi M. Yield response of corn to irrigation and nitrogen fertilization in a Mediterranean environment. Field Crop Res, 2008, 105: 202–210
[61] Iqbal M, Anwar-ul-Hassan, Ibrahim M. Effects of tillage systems and mulch on soil physical quality parameters and maize (Zea mays L.) yield in semi-arid Pakistan. Biol Agric Hortic, 2008, 25: 311-325
[62] Mukherjee A, Kundu M, Sarkar S. Role of irrigation and mulch on yield, evapotranspiration rate and water use pattern of tomato (Lycopersicon esculentum L). Agr Water Manage, 2010, 98: 182–189
[63] Shaheen A, Ali S, Stewart B A, Naeem M A, Jilani G. Mulching and synergistic use of organic and chemical fertilizers enhances the yield, nutrient uptake and water use efficiency of sorghum. Afr J Agr Res 2010, 5: 2178–2183
[64] Miller P R, Gan Y, McConkey B G, McDonald C L. Pulse crops for the northern Great Plains. I: Grain productivity and residual effects on soil water and nitrogen. Agron J, 2003, 95: 972–979
[65] Kumar S, Dey P. Effects of different mulches and irrigation methods on root growth, nutrient uptake, water-use efficiency and yield of strawberry. Sci Hortic, 2011, 127: 318–324
[66] Barati V, Ghadiri H, Zand-Parsa S, Karimian N. Nitrogen and water use efficiencies and yield response of barley cultivars under different irrigation and nitrogen regimes in a semi-arid Mediterranean climate. Arch Agron Soil Sci, 2015, 61: 15–32
[67] Azizian A, Sepaskhah A R. Maize response to water, salinity and nitrogen levels: yield-water relation, water-use efficiency and water uptake reduction function. Int J Plant Prod, 2014, 8: 183–214
[68] Pirmoradian N, Sepaskhah A R, Maftoun M. Effects of water-saving irrigation and nitrogen fertilization on yield and yield components of rice (Oryza sativa L.). Plant Prod Sci, 2004, 7: 337–34 |