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1.
《Plant Production Science》2013,16(3):245-269
AbstractHistorical changes in planting area, yield improvements, and production of both paddy and upland rice (Oryza sativa L.) in Tokyo and the whole of Japan from 1877 to 2003 were reviewed. The area of rice in Tokyo was at its peak (17,000 ha) at the beginning of the 20th century but dramatically reduced thereafter except for the period of 1950s, to200 and 30 ha for paddy and upland rice, respectively, in 2003, due to urbanization. After the 1950s, the land-use efficiency rate in Tokyo was reduced from 180 to 100% and rice self-sufficiency rate from 4 to 0.1%. There was historical yield improvement of paddy rice in Tokyo particularly after 1960s in the Southern and Northern Tama regions, but the current yield level in Tokyo (ca. 400 g m-2) is lower than that in the whole of Japan (more than 500 g m-2) eventhough crop damage due to low temperatures is not serious.The reasons were discussed from the viewpoints of (1) less agricultural inputs and agronomic management, (2) declining rice research after the 1970s, (3) higher elevating air temperature(e.g. 1.4°C for the last 40 years), in Tokyo, and (4) yield component differences. Upland rice in Tokyo has a planting area comparable with paddy rice (ca. 7,000 to 8,000 ha) during the 1950s, but yield improvement during the last 50 yearsis not noticeable (ca. 150 g m-2) with no development of cultivars, and with greater fluctuation of crop situation index due to drought compared with paddy rice. This review paper discusses the importance of urban rice production system, along with a proposal of the alternatives. 相似文献
2.
Muhammad Arshad T. S. Amjath-Babu Timothy J. Krupnik Sreejith Aravindakshan Azhar Abbas Harald Kächele Klaus Müller 《Paddy and Water Environment》2017,15(2):249-261
Rice and wheat are the principal calorie sources for over a billion people in South Asia, although each crop is particularly sensitive to the climatic and agronomic management conditions under which they are grown. Season-long heat stress can reduce photosynthesis and accelerate senescence; if extreme heat stress is experienced during flowering, both rice and wheat may also experience decreased pollen viability and stigma deposition, leading to increased grain sterility. Where farmers are unable to implement within-season management adaptations, significant deviations from expected climatic conditions would affect crop growth, yield, and therefore have important implications for food security. The influence of climatic conditions on crop growth have been widely studied in growth chamber, greenhouse, and research station trials, although empirical evidence of the link between climatic variability and yield risk in farmers’ fields is comparatively scarce. Using data from 240 farm households, this paper responds to this gap and isolates the effects of agronomic management from climatic variability on rice and wheat yield risks in eight of Pakistan’s twelve agroecological zones. Using Just and Pope production functions, we tested for the effects of crop management practices and climatic conditions on yield and yield variability for each crop. Our results highlight important risks to farmers’ ability to obtain reliable yield levels for both crops. Despite variability in input use and crop management, we found evidence for the negative effect of both season-long and terminal heat stress, measured as the cumulative number of days during which crop growth occurred above critical thresholds, though wheat was considerably more sensitive than rice. Comparing variation in observed climatic parameters in the year of study to medium-term patterns, rice, and wheat yields were both negatively affected, indicative of production risk and of farmers’ limited capacity for within-season adaptation. Our findings suggest the importance of reviewing existing climate change adaptation policies that aim to increase cereal farmers’ resilience in Pakistan, and more broadly in South Asia. Potential agronomic and extension strategies are proposed for further investigation. 相似文献
3.
In the last 10 years precision agriculture has evolved and it is now possible to manage cropping inputs at the sub field scale. However, the expected return generated by these management practices varies with the amount and predictability of the spatial variation in crop yield across the field and may vary from field to field across the farm. We analysed the spatial variation of crop yield from 20 fields totalling 2832 ha from a 5200 ha farm in Western Australia at the field and the sub field scale to determine the economic value of introducing variable rate management (VRT) strategies to fields across the entire farm. In this case study, 6 out of 20 fields generated an additional economic payoff of AU$15/ha when managed with VRT over uniform management. Sensitivity analysis found that the starting levels of soil fertility were an important driver of the payoff for managing a field with VRT. If starting soil fertility was low and uniform across the field, then no fields generated an economic return of more than AU$7.00/ha when managed with VRT. Other factors, including commodity price, fertiliser price, amount of variation in crop yield within the field moderately increased the value of adopting VRT across fields within farm the value of VRT increased if fertiliser budgets were constrained, particularly if the yield distribution of the field was negatively skewed. While VRT does add value to many fields across the farm, the gains are small and the technology must be implemented cheaply for it to be viable. 相似文献
4.
Prabhjyot-Kaur Sandhu S. S. Dhillon Buta Singh Singh Harpreet 《Paddy and Water Environment》2021,19(4):673-681
Rice is a major kharif cereal crop cultivated in Punjab. Over the past five decades the rice yield has increased from as low as 1800 kg/ha during 1970–4815 kg/ha during 2017, i.e., an overall increase of 167.5% or increase @ 3.5% per year. One of the major reasons for this increase has been the introduction of improved and high-yielding varieties (PR 106, PR 111, PR 116, PR 118, PR 121, PR 122, PR 126, PR 127, etc.). Other important factors are the improved crop production and protection practices coupled with mechanization of farm operations. However, weather factors have always been a major bottleneck shattering the steady plateau of high rice yield (3443 kg/ha during 1979, 3231 kg/ha during 1995, 3273 kg/ha during 1998, 4257 kg/ha during 2011 and recent low yield of 4387 kg/ha during 2018). The actual weather data of the recent two decades at Ludhiana (2000–2018) were correlated with the historical rice yield. The results revealed a combination of high temperature coupled with clear sunny (total seasonal sunshine?~?900–1000 h) and dry (low relative humidity) days is conducive for proper growth, development and yield of rice in Punjab. The rainfall and rainy days were found to be negatively correlated with yield since heavy rainfall events and more number of rainy days create a humid weather which is conducive for insect-pest and disease incidence in rice and also reduces sunshine duration. Hence, a combination of ample sunshine hours and well-distributed rainfall during the vegetative stage of rice leads to high productivity of cultivars grown under optimized crop management techniques.
相似文献5.
浙江金华地区水稻土养分供应能力研究 总被引:13,自引:0,他引:13
自1997年早稻开始,在浙江省金华市农业科学研究所试验区稻田设立了监测水稻土生产力及肥力变化的长期肥料定位试验,并在试验区周围10 km范围内选择了21户农民的稻田进行相应的监测试验。试验区内农户间稻田土壤的养分供应能力相差很大,氮供应能力变化于49~116 kg/hm2,磷供应能力变化于13~32 kg/hm2,钾供应能力变化于68~183 kg/hm2。农民常规施肥区的氮肥利用效率很低,氮表观回收率的平均值为14%~26%,氮肥农业效率平均值为4.6~8.2,且农户之间、早晚稻之间均存在较大差异。肥料定位试验结果表明,在连续种植水稻条件下,缺肥区土壤相应的有效养分消耗很快。与NPK全肥区比较,NP区从第2季水稻起,NK区从第3季水稻起,即开始出现减产。针对当地农民现行养分管理的实际情况,就水稻系统发展适地养分综合管理新技术进行了讨论。 相似文献
6.
7.
Use of Lorenz curves and Gini coefficients to assess yield inequality within paddocks 总被引:1,自引:0,他引:1
The opportunity for site-specific management of crops depends on both the magnitude and spatial structure of yield variation. This study explored the applicability of Lorenz curves and Gini coefficients (G) to characterise the magnitude of the variation in grain yield. Maize crops were grown in farmers fields in a semi-arid region of central Argentina. Major sources of yield variation between and within paddocks included season, soil type and topography, rate of nitrogen fertiliser (nil to 132 kg N ha−1), and the interactions among these factors. Nitrogen treatments were applied in a complete block strip trial (strip size700 m×9.8 m) with three replicates. Data were collected with an AgLeader™ yield monitor, and GIS software was used to create 9.8 m×9.8 m grids over the observations. Average yield in 0.7–2.8 ha field sections ranged from 1.6 to 7.0 t ha−1. Gini coefficient ranged from 0.027 to 0.191 whereas its theoretical limits are 0 for a perfectly uniform population, and 1 for a theoretical population of infinite size where all units but one yield 0. Conditions conducive to high yield, e.g. adequate availability of nitrogen and water, reduced crop yield inequality, as quantified with G. The agronomic relevance of G was summarised in an inverse relationship with yield. Lorenz curves seemed particularly apt to present crop heterogeneity in terms of inequality, and to highlight the relative contribution of low- and high-yielding sections of the field to total paddock yield. Lorenz curves and Gini coefficients provide a potentially useful extension tool, a complement to yield maps and other statistical indices of yield variation, and further contact points between site-specific management, economics and ecology. 相似文献
8.
Percent milling yield is an economically important trait of commercial rice because it largely determines the price that farmers receive for their crop. Analyzing 22 trait variables including milling yield, grain dimensions, chemistry and appearance, we identified 43 quantitative trait loci (QTLs) in a long grain japonica by long grain japonica cross. We report one QTL explaining 20% of the variation in brown rice recovery; two QTLs explaining 14% and 13% of the variation in milled rice recovery; and one QTL explaining 14% of the variation in head rice (HR) recovery. QTLs for the proportion of pre-broken brown rice kernels, seed density, amylose content, and kernel whiteness and chalkiness were found in the same region as the HR QTL. QTLs explaining up to 54% of the variation in grain shape measurements were identified and mapped to areas independent from those identified for milling yield. Analyses of grain appearance traits identified two QTLs for chalk in brown rice and one in head rice, and a QTL explaining up to 33% of the variance in green kernel area. Our results confirm previous findings on the multigenically complex nature of milling yield. 相似文献
9.
Shahbaz Khan 《Paddy and Water Environment》2007,5(3):143-152
Sustainability of irrigated agriculture in the semi-arid regions such as the rice growing regions of the southern Australia
could be under serious threat due to recharge to saline groundwater leading to secondary salinisation. This paper presents
two approaches to reduce net recharge to shallow saline groundwater from ponded rice cropping systems using a soil, water
and groundwater management model–SWAGMAN model. First approach applies the concept of growing deep-rooted crop (crop consuming
water from soil and shallow water table) over an area equivalent to recharge from a unit area of rice crop to maintain the
total water balance. The second approach involves achieving whole farm water balance for average and wet climatic conditions
to find out optimum cropping pattern to minimise recharge from rice based system. Results of both approaches are sensitive
to water table depth and regional groundwater outflow rates. The first approach was applied to determine an optimal mix of
rice/lucerne crop to keep water tables and average soil salinity changes less than 0 m/year and 0.015 dS/m, respectively.
The area of lucerne required to match the net groundwater rise caused by 1 ha of rice is 1.27, 2.45 and 3.55 ha for 1, 0.5
and 0.2 ML/ha regional groundwater outflow capacity. Results from second approach revealed that it is possible to control
net recharge under above average rainfall using a suitable whole farm cropping mix e.g. 50 ha rice–wheat rotation, 19 ha rice,
25 ha of lucerne and 136 ha of fallow. 相似文献
10.
MA Yi-hu ;GU Dao-jian ;LIU Li-jun ;WANG Zhi-qin ;ZHANG Hao ;YANG Jian-chang 《水稻科学》2014,21(4):224-232
A field experiment was conducted at the farm of Yangzhou University, Yangzhou, China, to study the effects of organic fertilizers made from maize straw on rice grain yield and the emission of greenhouse gases. Four organic fertilizer treatments were as follows: maize straw (MS), compost made from maize straw (MC), methane-generating maize residue (MR), and black carbon made from maize straw (BC). These organic fertilizers were applied separately to paddy fields before rice transplanting. No organic fertilizer was applied to the control (CK). The effects of each organic fertilizer on rice grain yield and emission of greenhouse gases were investigated under two conditions, namely, no nitrogen (N) application (ON) and site-specific N management (SSNM). Rice grain yields were significantly higher in the MS, MC and MR treatments than those in CK under either ON or SSNM. The MS treatment resulted in the highest grain yield and agronomic N use efficiency. However, no significant difference was observed for these parameters between the BC treatment and CK. The changes in the emissions of methane (CH4) carbon dioxide (CO2), or nitrous oxide (N20) from the fields were similar among all organic fertilizer treatments during the entire rice growing season. The application of each organic fertilizer significantly increased the emission of each greenhouse gas (except N20 emission in the BC treatment) and global warming potential (GWP). Emissions of all the greenhouse gases and GWP increased under the same organic fertilizer treatment in the presence of N fertilizer, whereas GWP per unit grain yield decreased. The results indicate that the application of organic fertilizer (MS, MC or MR) could increase grain yield, but also could enhance the emissions of greenhouse gases from paddy fields. High grain yield and environmental efficiency could be achieved by applying SSNM with MR. 相似文献
11.
Chen-Wuing Liu Shih-Wei Zhang Hsing-Pin Yao Kuo-Hua Lin Wei-Taw Lin 《Paddy and Water Environment》2010,8(3):207-216
The study synthesizes the spatiotemporal changes of the multifunctionality and benefit of Taiwanese paddy. The internal and
external economic values of the paddy are quantitatively determined. Nationwide as well as regional variation of multifunctionality
and benefits from 1999 to 2007 were considered. The substitution cost method was adopted to quantify the external economical
values of rice paddy. Moreover, the compensating variation concept was applied to appraise the rational green subsidy of rice
paddy in Taiwan. The result shows that the multifunctional benefits of rice paddy from 1999 to 2007 reduce 55, 18, 31, 13,
and 28% in north, center, south, east regions, and nationwide of Taiwan, respectively. The reduction is mainly attributable
to the significant decrease of rice-planting area. The external benefit may be further diminished if the fallow area increases
continuously. In order to maintain the multifunctionality of rice paddy, we appraise a reasonable green subsidy to the cultivated
paddy farmers. According to the results of the amount of green subsidy evaluated by the compensating variation concept, the
estimated green subsidy is 21,000 NT$/ha for the nationwide paddy farmers. The government may consider to award the appraised
green subsidy to paddy farmers directly for the sustainable management of rice paddy in Taiwan. 相似文献
12.
研究了12个山栏稻原始种质的主要农艺性状、品质特征及抗旱生理特性,并与水稻不同类型的对照进行比较分析。结果表明,在旱地栽培条件下,山栏稻的穗长、穗粒数、衙粒重及单株产量均显高于对照水稻.但不时也表现高杆、穗颈过长、移片大且披垂等不良性状。在品质方面,山栏稻糙米粗蛋白含量、17种氨基酸含量及2种必需氨基酸含量显高于水稻对照。山栏稻种子在高渗溶液中的发芽率、离体叶片保水率、质膜稳定性和分蘖秆长整齐 相似文献
13.
Weiling YuanShaobing Peng Cougui CaoParminder Virk Danying XingYunbo Zhang Romeo M. VisperasRebecca C. Laza 《Field Crops Research》2011,121(1):168-174
Selection for yield per se has greatly contributed to yield improvement in many crops. It is expected that selection based on plant traits is more effective in increasing crop yield potential. This study was conducted to compare the effectiveness of trait-based and yield-based selection in increasing rice yield and to determine whether lines with ideotype traits have the potential to express higher yield under optimal crop management conditions. Lines were selected based on plant traits or on grain yield measured in a breeder's replicated yield trial. The main target traits for selection were plant height, leaf and panicle morphology, grain size, total dry weight, and grain-filling percentage. Yield performance of trait-based selection was compared with that of yield-based selection in an agronomic trial with optimum crop management for three seasons. Trait-based selection increased leaf area index and total dry weight but reduced spikelet number per m2 and harvest index compared with yield-based selection. Consequently, selection based on plant traits did not increase grain yield compared with selection based on yield per se. In one of the three seasons, yield of trait-based selection was significantly lower than that of yield-based selection. Among all tested breeding lines, maximum yield was produced by yield-based selection and minimum yield came from trait-based selection. These results suggest that lines with ideotype traits did not express higher grain yield than lines selected based on yield per se under optimal crop management conditions, and yield-based selection was as effective in increasing rice grain yield as trait-based selection in the late generations of the breeding cycle. 相似文献
14.
A. K. SINGH M.CHAKRABORTI M. DATTA 《水稻科学》2014,21(5):299-304
An experiment was conducted in three fallow paddy fields situated on the mid-tropical plain zone of a northeastern Indian state(Tripura) to provide rice fallow management options using leftover soil moisture and nutrients. The three experimental fields were managed by growing rice under the system of rice intensification as the rainy season crop and then groundnut, lentil, rapeseed and potato as the post-rainy season crops. Fertilization under the integrated nutrient management system and lifesaving irrigation at critical stages of each post-rainy season crop were provided. Results showed that the field water use efficiency values were 5.93, 2.39, 2.37 and 59.76 kg/(hm2·mm) and that the yield of these crops increased by approximately 20%, 34%, 40% and 20% after applying two lifesaving irrigations in groundnut, lentil, rapeseed and potato, respectively. Therefore, fallow paddy field can provide possible profitable crops during the post-rainy season by utilizing the residual moisture and minimum supplemental irrigation under improved nutrient management practices. 相似文献
15.
Comparative analysis of temporal changes of multifunctionality benefit of two major rice paddy plains in Taiwan 总被引:1,自引:0,他引:1
Chen-Wuing Liu Shih-Wei Zhang Kuo-Hua Lin Wei-Taw Lin 《Paddy and Water Environment》2010,8(2):199-205
Recently, free trade of farm land, changes of agricultural policy and global climate changes have resulted a significant reduction of rice planting area and the multifunctionality values of paddy field in Taiwan. This study aims to evaluate the temporal changes of multifunctionality benefit of two major rice paddy plains in Taiwan. The main agricultural production regions of the Chou-Shui river alluvial fan and Ping-Tung plain are selected for the comparative study. The replacement method is adopted to quantify the multifunctionality of the paddy field. The results show that percentage of cultivated paddy to the total paddy gradually decreases from 92 to 80% and the external value remains from 572,000 to 668,000 NT$/ha in the Chou-Shui river alluvial fan. Whereas, the percentage of area of cultivated paddy to the total paddy markedly decreases from 37 to 23% from 1999 to 2006 and resulting the external values of paddy only ranges from 156,000 to 258,000 NT$/ha in the Ping-Tung plain. To maintain the sustainable agriculture in the paddy field, government needs to formulate incentive policy to conserve the paddy farming, promote, and transmit the general understanding of the environmental and living-hood multifunctionality values to the people. 相似文献
16.
Ur Rehman Hafeez Kamran Muhammad Maqsood Ahmed Basra Shahzad Afzal Irfan Farooq Muhammad 《水稻科学》2015,22(4):189
Direct seeded rice is promising alternative to traditional transplanting, but requires appropriate crop and water management to maintain yield performance and achieve high water productivity. Present study evaluated the effect of seed priming and irrigation on crop establishment, tillering, agronomic traits, paddy yield, grain quality and water productivity of direct seeded rice in alternate wetting and drying(DSR-AWD) in comparison with direct seeded rice at field capacity(DSRFC). Seed priming treatments were osmo-priming with KCl(2.2%), Ca Cl2(2.2%) and moringa leaf extracts(MLE, 3.3%) including hydro-priming as control. Among the treatments, seed osmo-primed with MLE emerged earlier and had higher final emergence, followed by osmo-priming with Ca Cl2. Tillering emergence rate and number of tillers per plant were the highest for seed priming with Ca Cl2 in DSRAWD. Total productive and non-productive tillers, panicle length, biological and grain yields, harvest index were highest for seed priming with MLE or Ca Cl2 in DSR-AWD. Similarly, grain quality, estimated in terms of normal grains, abortive and chalky grains, was also the highest in DSR-AWD with MLE osmo-priming. Benefit cost ratio and water productivity was also the highest in DSR-AWD for seed priming with MLE. In conclusion, seed priming with MLE or Ca Cl2 can be successfully employed to improve the direct seeded rice performance when practiced with alternate wetting and drying irrigation. 相似文献
17.
有机无机肥配施对冬水田水稻产量和耕层土壤性质的影响 总被引:1,自引:0,他引:1
在农业生产要求全面减施化肥农药的大背景下,综合评价四川冬水稻田区有机无机配施对水稻产量和土壤肥力的效应具有一定意义。本试验在冬水稻田区,比较了在等氮量替代条件下,无N(CK)、单施化肥N、P、K(T1)、30%有机肥N+70%化肥N(T2)、50%有机肥N+50%化肥N(T3)、100%有机肥N(T4)等处理的水稻产量、氮肥利用和土壤肥力变化情况。结果表明,有机无机肥配施处理的水稻产量较CK增加17.29%~31.43%,T2处理最高,且明显提高了氮肥利用率、氮肥农学效率和氮肥偏生产力;有机无机肥配施具有提升土壤有机质、培肥地力的作用。可见,冬水稻田区适宜的有机肥替代方案为30%有机N+70%化肥N,既可稳定水稻产量、降低成本,又可提高氮素利用率和降低对农田环境的不良影响。 相似文献
18.
Toshisuke Maruyama Iwao Hashimoto Kazuo Murashima Hiroshi Takimoto 《Paddy and Water Environment》2008,6(4):355-362
Kahokugata Lake, a closed lake, has been subject to eutrophication. This research was conducted to clarify the actual phenomena
and evaluation of the discharges of N and P from paddy test fields in the lowlands into Kahokugata Lake. A comprehensive mass
balance of N and P was obtained from 4 years of study. About N, the mean value of harvested unhulled rice (79.9 kg/ha) was
greater than mean controlled release fertilizer inputs (56.7 kg/ha). Other inputs and outputs include N in atmospheric acid
deposition (21.4 kg/ha) and N fixation–denitrification (9.2 kg/ha). The rice straw recycled after harvest was balanced by
straw produced in the succeeding year. The runoff and percolation losses discharged into the lake was 11.3 kg/ha, (8.6% of
total inputs). Since the rice harvested was consumed domestically, which taking out from the farmland and, therefore, nitrogen
pollutant into the lake was becoming small, paddy rice at this site is considered an “anti-polluting, purifying or cleansing”
crop. The P content in harvested rice (39.4 kg/ha) was balanced by fertilizer inputs (36.4 kg/ha). Previous studies examining
inflow–outflow relationships without considering a comprehensive mass balance may lead to erroneous conclusions. Our findings
indicate paddy rice in lowlands could be an environmentally friendly crop and can play an important role in reducing pollution
of lakes, and therefore should be considered in land use planning. 相似文献
19.
基于已发表的文献数据,综述了长江中下游地区不同稻田综合种养模式对水稻产量形成和稻米品质的影响,并探讨其影响机理。41%的样本量数据表明,稻田综合种养的水稻产量高于水稻单作,而59%的样本量呈相反趋势;稻田综合种养的水稻穂数和穗粒数普遍减少,而结实率和千粒重增加。在长江中下游地区,相比于水稻单作,稻田综合种养稻米的加工、外观、蒸煮和食味品质在一定程度上得到改善。其中,糙米率、精米率和整精米率极显著提高0.72%~2.74%,胶稠度增加2.11%,垩白粒率、垩白度、直链淀粉含量和稻米蛋白质含量则分别下降13.78%、11.76%、3.01%和6.67%。 相似文献
20.
Simulation and Validation of Rice Potential Growth Process in Zhejiang Province of China by Utilizing WOFOST Model 总被引:1,自引:0,他引:1
XIE Wen-xia YAN Li-jiao WANG Guang-huo 《水稻科学》2006,13(2):125-130
Since the pioneering work in the 1960s, substantial progress has been made in crop growth simulation both in developing and applying models. Crop growth simulation integrates the knowledge of computer science, phytophysiology, agroecology, agrometeorology, soil science, agronomy and systems, combines the plant and environmental factors, and describes quantitatively the dynamic relation between crop growth, development, yield formation and environmental techniques [1]. WOFOST (World Food Stu… 相似文献