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1.
Zhao Zhongjing Jiang Changsheng Xiong Weixia Chen Junjiang Zeng Wei Hao Qingju 《Paddy and Water Environment》2021,19(4):709-722
With the aim of assessing differentiation of greenhouse gas emissions as manipulated by plastic film mulching (PFM) from paddy field from a year-round perspective, we determined net ecosystem CO2 exchange (NEE, CO2 flux), CH4 and N2O fluxes from a rice–rapeseed rotation field. PFM and non-mulching (NM) treatments were set from 2014 to 2017 (May 2014 to April 2015, May 2015 to April 2016 and May 2016 to April 2017 were set as Annual 1, Annual 2 and Annual 3, respectively) in Southwest China. Compared with NM, CH4 emissions were increased by 60.00% (P?<?0.05), 111.54% (P?<?0.05) and 62.07% (P?<?0.05) under PFM in Annual 1, 2 and 3, respectively. Additionally, PFM delayed the peaks of CH4 fluxes by 5–10 days during rice season. However, PFM did not affect N2O emissions on the annual basis. PFM reduced the net carbon loss from soil during rice season while had insignificant influence on soil carbon sequestration capacity during fallow and rapeseed seasons. Overall, the mean annual net ecosystem greenhouse gas exchange among three annuals was 32.11% lower under PFM than under NM. Moreover, PFM slightly increased crop yields of both rice and rapeseed. Accordingly, PFM recommended the suitable agricultural management in the rice–rapeseed rotation field for simultaneously alleviating global warming and maintaining crop yields.
相似文献2.
Cover cropping can have various beneficial effects to the cropping system such us the increase of soil nutrient content and weed suppression. In this respect, the species used for covering is of great importance. This paper reports results on the yield and weed control effects in potato crops preceded by different cover crops over a 2-year period (2003 and 2004) in Central Italy (Viterbo). Results were obtained in the frame of a more complex study set up in 2002 where in a 3-year chick-pea/potato/tomato rotation, each crop was preceded by 7 different soil managements: 5 cover crops (rapeseed, Italian ryegrass, hairy vetch, snail medick and subclover) + 1 unfertilised weedy fallow (cover crop absent) + 1 control (weedy fallow fertilised with mineral N at a rate of 170 kg ha−1 for potato). Two different weed control regimes in potato were also applied [weed-free crop (1 inter-row hoeing + 1 hilling up + manual weeding on the row); mechanical control (1 inter-row hoeing + 1 hilling up)]. Cover crops were sown in September and cut and ploughed just before potato planting in March. The potato crops following the cover crops were only fertilised with green manure. Averaged over years, all the cover crops produced more above-ground dry biomass than the weedy fallow (4.79 t ha−1 on average vs 2.36 t ha−1). Hairy vetch and subclover accumulated the highest N in the incorporated biomass (169 and 147 kg ha−1), followed by snail medick (108), rapeseed (99), ryegrass (88) and weedy fallow (47). Rapeseed and ryegrass were the most efficient weed suppressors and had the least proportion of weed biomass (<1%) of the total produced by the cover, while they also reduced weed emergence in the following potato crops (8.8 plants m−2vs 25.5 plants m−2 with all other cover crops). Following subclover and hairy vetch the potato crop yield was similar to that obtained by mineral N-P-K fertilisation (48.5 t ha−1 of fresh marketable tubers). Mechanical weed control compared to weed free crop always reduced potato yield and the reduction, averaged over years, was greater in N-P-K mineral fertilised control (−23.6%) and smaller in ryegrass (−7.9%). 相似文献
3.
This experimental study assesses the effects of event rainfall on soil erosion characteristics in terraced rice paddy fields. A 0.75-ha terraced paddy field located in Northern Taiwan was used to investigate the soil erosion under the regular cultivation of rice during two crop seasons. The environmental changes were investigated in the neighboring areas in which terraced paddy fields have been converted to other land usages. The annual rate of soil erosion calculated from the observed rainfall runoff and suspended solid contained was 0.77 ton/ha, which is significantly less than the erosion rate associated with upland crop cultivation reported by other research conducted in Taiwan. Experimental results also showed that the terraced paddy field retained the highest percentages of clay, silt, and organic matter's content, as compared to those of other upland crops, indicating that the topsoil was less susceptible to rainfall erosion under flooded conditions of rice-cultivation. The results of this study show that the rice-planted terraced paddy offers the highest level of soil conservation. The function of soil and water conservation in terraced paddy fields could be further increased by effective maintenance of embankment and to raise the height of the bund. Poor management, abandoned cultivation, and converse to other upland crops of terraced paddy fields are regarded as major contributors to increased soil erosion in mountainous areas. The government in Taiwan should formulate effective measures and maintain sustainable rice cultivation in the terraced paddies. 相似文献
4.
A field experimental study was performed during the growing season of 2001 to evaluate water and nutrient balances in paddy
rice culture. Three plots of standard fertilization (SF), excessive fertilization (EF, 150% of SF), and reduced fertilization
(RF, 70% of SF) were used and the size of treatment plot was 3,000 m2, respectively. The hydrologic and water quality was field monitored throughout the crop stages. The water balance analyses
indicated that approximately half (47–54%) of the total outflow was lost through surface drainage, with the remainder consumed
by evapotranspiration. Statistical analysis showed that there was no significant effect of fertilization rates on nutrient
outflow through the surface drainage or rice yield. Reducing fertilization of rice paddy may not work well to mitigate the
non-point source nutrient loading in the range of normal farming practices. Instead, the reduction in surface drainage could
be important to controlling the loading. Suggestive measures that may be applicable to reduce surface drainage and nutrient
losses include water-saving irrigation by reducing ponded water depth, raising the weir height in diked rice fields, and minimizing
forced surface drainage as recommended by other researchers. The suggested practices can cause some deviations from conventional
farming practices, and further investigations are recommended. 相似文献
5.
Cropping sequence and tillage system influences annual crop production and water use in semiarid Montana,USA 总被引:1,自引:0,他引:1
Available water is typically the biggest constraint to spring wheat production in the northern Great Plains of the USA. The most common rotation for spring wheat is with summer fallow, which is used to accrue additional soil moisture. Tillage during fallow periods controls weeds, which otherwise would use substantial amounts of water, decreasing the efficiency of fallow. Chemical fallow and zero tillage systems improve soil water conservation, allowing for increased cropping intensity. We conducted a field trial from 1998 through 2003 comparing productivity and water use of crops in nine rotations under two tillage systems, conventional and no-till. All rotations included spring wheat, two rotations included field pea, while lentil, chickpea, yellow mustard, sunflower, and safflower were present in single rotations with wheat. Growing season precipitation was below average most years, resulting in substantial drought stress to crops not following fallow. Preplant soil water, water use, and spring wheat yields were generally greater following summer fallow than wheat recropped after wheat or alternate crops. Water use and yield of wheat following summer fallow was greater than for chickpea or yellow mustard, the only other crops in the trial that followed summer fallow. Field pea performed best of all alternate crops, providing yields comparable to those of recropped spring wheat. Chickpea, lentil, yellow mustard, safflower, and sunflower did not perform well and were not adapted to this region, at least during periods of below average precipitation. Following summer fallow, and despite drought conditions, zero tillage often provided greater amounts of soil water at planting compared to conventional tillage. 相似文献
6.
Soilborne potato diseases are persistent problems in potato production. Use of disease-suppressive rotation crops, such as Brassica spp. (mustards, rapeseed) and sudangrass, has shown potential for management of soilborne diseases and enhanced yield in various crop production systems. However, how to best implement these crops into productive potato cropping systems has not yet been determined. In this research, potential disease-suppressive crops were evaluated under four different types of production management (as a cover crop, green manure, harvested crop-residue incorporated, and harvested crop-residue not incorporated) in potato rotation field trials, and their effects on disease, yield, and economic viability determined. Mustard blend, sudangrass, and rapeseed rotations reduced the tuber disease black scurf (by 16–27 %) and increased yield (by 6–11 %) relative to a barley rotation control, but only mustard blend consistently reduced common scab (by 11 %). All rotation crops managed as green manures produced lower disease (by 15–26 %) and higher yields (by 6–13 %) than other management practices. Overall, the combination of mustard blend managed as a green manure was most effective, reducing scurf by 54 % and increasing yield by 25 % relative to a soybean cover crop. The use of mustard or rapeseed as a harvested crop with incorporation provided the best economic return, increasing net income by more than $860/ha relative to the standard barley rotation, but mustard blend grown as a green manure or non-incorporated harvest crop also substantially increased net income ($600 to $780/ha). 相似文献
7.
冬作物秸秆还田对双季稻产量和土壤肥力的影响 总被引:4,自引:0,他引:4
为探讨冬作物秸秆还田对双季稻产量和土壤肥力的影响,以冬闲—双季稻为对照,设计了油菜—双季稻、紫云英—双季稻、黑麦草—双季稻、马铃薯—双季稻4种复种模式,进行对比试验。试验结果显示:与冬闲相比,油菜、紫云英、黑麦草和马铃薯秸秆还田提高了水稻有效穗数和穗粒数,水稻平均产量增加,增幅分别为4. 44%、6. 50%、4. 76%、6. 69%;油菜、紫云英、黑麦草和马铃薯秸秆还田后土壤平均pH值比冬闲分别下降0. 07、0. 11、0. 25、0. 08个单位,平均有效磷含量分别下降25. 0%、17. 6%、22. 5%、28. 6%,降幅明显;土壤碱解氮含量增幅大小顺序为紫云英还田处理>油菜秸秆还田处理>黑麦草秸秆还田处理,增幅分别为4. 41%、1. 39%、1. 36%;有机质含量增幅大小顺序为油菜秸秆还田处理>马铃薯秸秆还田处理,增幅分别为3. 0%、1. 2%;速效钾含量增加的只有黑麦草秸秆还田处理,增幅为7. 4%。表明紫云英—双季稻和油菜—双季稻是较好的复种模式。 相似文献
8.
Ji-Hong Jeon Chun G. Yoon Jong-Hwa Ham Kwang-Wook Jung 《Paddy and Water Environment》2005,3(2):93-101
A field experiment was performed at two Korean research sites to evaluate water and nutrient behavior in paddy rice culture
operations for 2 years. One site was irrigated with groundwater, whereas the other site was irrigated with surface water.
Both sites received average annual rainfall of about 1,300 mm, and about 70–80% of it was concentrated during July–September
coinciding with rice growing season. Although most of the nutrient outflow was attributed to plant uptake, nutrient loss by
surface drainage was substantial. The simplified computer model, PADDIMOD, was developed to simulate water and nutrient behaviors
in the paddy rice field. The model predicts daily ponded water depth, surface drainage, and nutrient concentrations. It was
formulated with a few equations and simplified assumptions, but its application and a model fitness test indicated that the
simulation results reasonably matched the observed data. It is a simple and practical planning model that could be used to
evaluate nutrient loading from paddy rice fields alone or in combination with other complex watershed models. Further validation
might be required for general application of the PADDIMOD to the simulation of paddy rice fields with various agricultural
environments. 相似文献
9.
In the large-scale irrigation schemes of the lower Ili River Basin of Kazakhstan, crop rotation combines paddy rice and non-rice crops. Continuous irrigation is practiced in paddy fields, whereas other crops are sustained from groundwater after only limited early irrigation. The water table in non-rice crops is raised by seepage from canals and the flooded paddy fields. We investigated the areal extent to which the groundwater level of non-irrigated fields is influenced by seepage from canals and paddy fields by examining the relationship between distance (from canal and paddy field) and groundwater level in upland fields. The groundwater level was influenced for up to 300 and 400 m from the canals and paddy fields, respectively. Geographic information system analysis of crop and canal patterns in the 11 selected years showed that if the zone of influence is 300 and 400 m from the canals and paddy fields, respectively, the groundwater level of most of the area of upland fields was raised by seepage. We conclude that the water supply to cropping fields by seepage from irrigation canals and paddy fields is adequate, but the spatial distribution of the paddy fields may be an important factor that needs more attention to help improve water use efficiency in this irrigation district. 相似文献
10.
《Field Crops Research》2006,99(1):35-47
Both intensification and diversification of cropping systems may allow improving the productivity and sustainability of agricultural production in the Indo-Gangetic Plain (IGP), but the choices to be made require integrated assessment of various cropping systems. A field experiment was conducted from 1999 to 2002 on a sandy clay loam (Inceptisol) to evaluate nine predominant cropping systems in West Bengal, India. Productivity, energy use efficiency, and nutrient uptake generally increased with increasing cropping intensity. Positive residual effects of potato and jute on yield and energy output of subsequently grown crops were observed as well as maintenance or improvement of soil properties such as soil organic matter, available P, and available K. The P balance was positive for most systems, except for jute-containing systems. However, negative K balances occurred due to almost complete removal of crop biomass in all systems, suggesting that recommended rates of applied K fertilizer were to low for sustaining soil K supply over the longer term. Cropping systems containing potato had the highest levels of yield, net return, benefit to cost ratio and energy productivity, but energy use efficiency was reduced due to higher energy consumption in these systems. Jute–wheat and jute–rapeseed–rice systems showed high energy use efficiency along with moderate cost and return. Based on economic considerations alone, jute–potato–rice, rice–potato–rice and rice–potato–sesame can be recommended as cropping systems for resource-rich growers in the eastern part of the IGP. Systems such as jute–wheat, rice–wheat and jute–rapeseed–rice appear to be most suitable for small and marginal farmers that cannot afford the large production costs associated with crops such as potato. 相似文献
11.
《Plant Production Science》2013,16(2):219-231
AbstractWater-saving rice-winter crop rotation systems were repeated for 4 cycles from 2000 to 2004 in an urban area, Nishitokyo, Japan, to assess the effects of water-saving (i.e. non-flooded vs. flooded) on grain yield of rice (Oryza sativa L.) and chemical constituents of percolating water. The effects of pre-rice winter cropping compared with fallow on rice yield were also examined. The pre-cultivated crops were wheat (Triticum aestivum L.), italian ryegrass (Lolium multiflorum Lam.) or spinach (Spinacea oleracea L.) with their above-ground parts removed, chinese milk vetch (Astragalus sinicus L.) or rapeseed (Brassica napus L.) with their above-ground parts incorporated before rice transplanting. Neither winter cropping effects nor its interaction with water-saving were significant for rice yield, although the yield after rapeseed incorporation tended to be 9 % higher than that after fallow. In 2001, 2003 and 2004, when more than 70% of irrigation water was saved in the non-flooded trial, average yield in non-flooded trial was 58 % of flooded trial, but water productivity increased (from 0.10 to 0.16 kg m-3). Among the 3 years, yield in non-flooded trial was highest in 2004 when the amounts of irrigation and total water supply was larger, the frequency of dry spells was the lowest, and 2 seedlings were transplanted per hill. The nitrate and nitrite concentrations in the percolating water were far below the environmental standard values by WHO. The study showed that incorporation of winter crops had no negative effects on water-saving rice production at least for the first 4 years, and that under extreme water-saving, irrigation and planting methods could minimize yield reduction. 相似文献
12.
采用大田小区试验研究了不同冬季轮茬种植模式下作物养分还田特征,及其对水稻产量和稻田表水环境主要参数的影响,并对各轮茬种植模式下的经济效益进行了分析。结果表明,不同冬季轮茬作物产量差异较大,且其养分含量差异亦较大,导致各轮茬种植模式下养分还田量差异显著。“红花草-水稻”模式下,N、P素还田量均最高。从短期效应来看,冬季作物轮茬对后茬水稻株高、产量及肥料利用率的影响均不显著。然而,从环境效应角度考量,不管何种轮茬种植模式,均应充分考虑水稻季基肥到分蘖肥期间的稻田水环境效应,监测发现,稻田表水总磷(TP)、可溶性总磷(DP)平均含量几乎都超过了易引发水体富营养化的临界水平(溶解磷0.05 mg/L和总磷0.1 mg/L)。同时,从周年经济效益角度考量,“青饲小麦-水稻”和“蚕豆-水稻”种植模式具有较高收益,可进一步推广应用。 相似文献
13.
14.
In the low-input rice–wheat production systems of Nepal, the N nutrition of both crops is largely based on the supply from soil pools. Declining yield trends call for management interventions aiming at the avoidance of native soil N losses. A field study was conducted at two sites in the lowland and the upper mid-hills of Nepal with contrasting temperature regimes and durations of the dry-to-wet season transition period between the harvest of wheat and the transplanting of lowland rice. Technical options included the return of the straw of the preceding wheat crop, the cultivation of short-cycled crops during the transition season, and combinations of both. Dynamics of soil Nmin, nitrate leaching, nitrous oxide emissions, and crop N uptake were studied throughout the year between 2004 and 2005 and partial N balances of the cropping systems were established. In the traditional system (bare fallow between wheat and rice) a large accumulation of soil nitrate N and its subsequent disappearance upon soil saturation occurred during the transition season. This nitrate loss was associated with nitrate leaching (6.3 and 12.8 kg ha−1 at the low and high altitude sites, respectively) and peaks of nitrous oxide emissions (120 and 480 mg m−2 h−1 at the low and high altitude sites, respectively). Incorporation of wheat straw at 3 Mg ha−1 and/or cultivation of a nitrate catch crop during the transition season significantly reduced the build up of soil nitrate and subsequent N losses at the low altitude site. At the high altitude site, cumulative grain yields increased from 2.35 Mg ha−1 with bare fallow during the transition season to 3.44 Mg ha−1 when wheat straw was incorporated. At the low altitude site, the cumulative yield significantly increased from 2.85 Mg ha−1 (bare fallow) to between 3.63 and 6.63 Mg ha−1, depending on the transition season option applied. Irrespective of the site and the land use option applied during the transition season, systems N balances remained largely negative, ranging from −37 to −84 kg N ha−1. We conclude that despite reduced N losses and increased grain yields the proposed options need to be complemented with additional N inputs to sustain long-term productivity. 相似文献
15.
Recent water shortages in reservoirs have caused such problems as insufficient water and fallow rice fields in Southern Taiwan; therefore, comparing irrigation water requirements and crop production of paddy fields using a technique that differs from the conventional flood irrigation method is important. Field experiments for the second paddy field with four irrigation schedules and two repeated treatments were conducted at the HsuehChia Experiment Station, ChiaNan Irrigation Association, Taiwan. Experimental results demonstrate that irrigation water requirements for the comparison method, and 7-, 10- and 15-day irrigation schedules were 1248, 993, 848, and 718 mm, respectively. Compared to the conventional method of flooding fields at a 7-day interval, the 10- and 15-day irrigation schedules reduced water requirements by 14.6 and 27.3 %, respectively; however, crop yields decreased by 7 and 15 %, respectively. Based on the results, it was recommended that the ChaiNan Irrigation Association could adopt 10 days irrigation schedule and plant drought-enduring paddy to save irrigation water requirements for the water resource scarcity in southern Taiwan. The CROPWAT model was utilized to simulate the on-farm water balance with a 10-day irrigation schedule for the second paddy field. A comparison of net irrigation water requirements with the 10-day irrigation schedule from model and field experiment were 818 and 848 mm, respectively, and the error was 3.54 %. 相似文献
16.
《Field Crops Research》2002,75(1):9-21
Integrated use of organic and inorganic fertilizers can improve crop productivity and sustain soil health and fertility. The present research was conducted to study the effects of application of green manures [sesbania (Sesbania aculeate Poiret) and crotalaria (Crotalaria juncea L.)] and farmyard manure on productivity of rice (Oryza sativa L.) and its residual effects on subsequent groundnut (Arachis hypogaea L.) crop. Rice and groundnut crops were grown in sequence during rainy and post-rainy seasons with and without green manure in combination with different fertilizer and spacing treatments under irrigated conditions. The results showed that application of green manures sesbania and crotalaria at 10 t ha−1 to rice compared to no green manure application significantly increased grain yield of rice by 1.6 and 1.1 t ha−1, and pod yields of groundnut crop succeeding rice by 0.25 and 0.16 t ha−1, respectively. There was no significant difference between the application of crotalaria or farmyard manure at 10 t ha−1 on grain yields of rice, but pod yields of subsequent groundnut crop were greater with application of green manure. There was no significant effect of different spacing 20×15,15×15,15×10 cm2 (333 000; 444 000; 666 000 plant ha−1, respectively) on grain yield of rice. Pod yields of groundnut were significantly greater with closer spacing 15×15 cm2 (444 000 plants ha−1) as compared to spacing of 30×10 cm2 (333 000 plants ha−1). Maximum grain of rice was obtained by application of 120:26:37 kg NPK ha−1 in combination with green manures, whereas maximum pod yield of groundnut was obtained by residual effect of green manure applied to rice and application of 30:26:33 kg NPK ha−1 in combination with gypsum applied to groundnut crop. 相似文献
17.
Kurt Möller Johann Habermeyer Volker Zinkernagel Hans-Jürgen Reents 《Potato Research》2006,49(4):281-301
For organic potato producers, the two main challenges are disease and nutrient management. Both are limited by regulations
that on the one hand prohibit the use of chemical fertilizers, especially nitrogen, and on the other hand prohibit most synthetic
pesticides. Late blight caused by Phytophthora infestans is commonly thought to be the most yield-reducing factor. However, because there is no really effective fungicide available
to control late blight, there are virtually no yield loss data available for organic farming conditions. In this paper, the
state of the art of organic potato tuber growth under on-farm conditions with respect to disease and nutrient management is
summarized by field trials and on-farm surveys on commercial organic crops carried out in the years 1995–1998. Soil nitrogen
(N) levels, plant N uptake, disease development of P. infestans and potato yield were measured. Results indicated that N availability was most important in limiting yields in organic potato
crops. From on-farm data, a model including disease development, growth duration of the crops until foliage decay and different
parameters related to N status of the crop could explain 73% of the observed variation in yield. Only 25% of this variation
in yield could be attributed to the influence of late blight. Differences in N availability explained 48%. In conclusion,
several points emerged from the results. In organic farming, yields are mainly limited by nutrient availability in spring
and early summer. The effects of late blight on yields may often be overestimated and cannot be deduced from results in conventional
farming because of the strong interaction with nutrient status. Depending on N availability, tubers stop growing between mid-July
(70–90 kg N ha−1 uptake), the end of July (110–140 kg N ha−1 uptake) and mid-August (140–180 kg N ha−1 uptake) due to N limitations. The higher the N status of a potato crop, the longer the growing period needed to achieve the
attainable yield and the higher the probability that late blight stops further tuber growth and becomes the key tuber-yield-limiting
factor. In the second part of this paper, the interactive effects of soil N availability and the impact of P. infestans on yield in the presence and absence of fungicides from 1996 to 1998 for mid-early main crops are reported. An empirical
schematic model of disease impact depending on N availability was developed. 相似文献
18.
L. Zavattaro M. Romani D. Sacco M. Bassanino C. Grignani 《Paddy and Water Environment》2006,4(1):61-66
The fertilization management of the rice crop in Piedmont was analyzed at a regional scale, and the agronomic and environmental
sustainability of the actual fertilization strategy of rice was evaluated through the analysis of its effect on the soils
and waters quality.
On average, a total amount of 127 kg ha−1 of N, 67 kg ha−1 of P2O5 and 161 kg ha−1 of K2O were supplied to the rice crop.
In most cases N and P fertilization was rather well balanced with crop removal. The N balance was in the range ±50 kg for
77% of the surface. The low concentration of N in the groundwater reflected the small N surplus. P fertilization resulted
to be smaller than removal for 53% of the surface. Nevertheless, the soil extractable P was very high, probably because of
former higher P inputs. This resulted in a high concentration in water courses and aquifers. The K fertilization was excessive
(surplus >100 kg ha−1) for 53% of the surface, but most soils showed a low K content. K is probably contributing to nutrient leaching to a great
extent.
The average soil organic matter (SOM) content of paddy fields was higher than that of normally-cultivated soils in Piedmont,
and the C/N was higher, owing to the low mineralization rate in waterlogged conditions. The SOM content was in relation with
the management of the crop residues, as the tradition of burning straw after harvest was still widespread on 65% of the paddy
surface. 相似文献
19.
于2009~2011年,在湖南长沙进行双季稻不同栽培方式("三定"栽培、免耕摆栽、传统栽培)定位试验,研究了双季稻不同栽培方式对冬闲期稻田杂草生长及土壤养分含量的影响。结果表明:与传统栽培相比,"三定"栽培和免耕摆栽方式下冬闲期杂草的密度、单株干重和单位面积生物量以及土壤表层(0~5cm)的碱解氮、有效磷和速效钾含量均较高。其中,冬闲期杂草单位面积生物量、单株干重、单位面积密度与土壤表层碱解氮含量呈显著正相关关系,说明冬闲期杂草在双季稻稻田土壤养分循环中起了重要的作用。 相似文献
20.
Water management is an important factor in regulating soil respiration and the net ecosystem exchange of CO2 (NEE) between croplands and atmosphere. However, how water management affects soil respiration and the NEE of paddy fields remains unexplored. Thus, a 2-year field experiment was carried out to study the effects of controlled irrigation (CI) during the rice season on the variation of soil respiration and NEE, with flooding irrigation (FI) as the control. A decrease of irrigation water input by 46.39% did not significantly affect rice yield but significantly increased irrigation water use efficiency by 0.99 kg m?3. The soil respiration rate of CI paddy fields was larger than that of FI paddy fields except during the ripening stage. Natural drying management during the ripening stage resulted in a significant increase of the soil respiration rate of the FI paddy fields. Variations of NEE with different water managements were opposite to soil respiration rates during the whole rice growth stages. Total CO2 emission of CI paddy fields through soil respiration (total R soil) increased by 11.66% compared with FI paddy fields. The increase of total R soil resulted in the significant decrease of total net CO2 absorption of CI paddy fields by 11.57% compared with FI paddy fields (p < 0.05). There were inter-annual differences of soil respiration and the NEE of paddy fields. Frequent alternate wetting and drying processes in the CI paddy fields were the main factors influencing soil respiration and NEE. CI management slightly enhanced the rice dry matter amount but accelerated the consumption and decomposition of soil organic carbon and significantly increased soil respiration, which led to the decrease of net CO2 absorption. CI management and organic carbon input technologies should be combined in applications to achieve sustainable use of water and soil resources in paddy fields. 相似文献