Estimate of CH_4 Emissions from Year-Round Flooded Rice Fields During Rice Growing Season in China

A special kind of rice field exists in China that is flooded year-round. These rice fields have substantially large CH4 emissions during the rice-growing season and emit CH4 continuously in the non-rice growing season. CH4 emission factors were used to estimate the CH4 emissions from year-round flooded rice fields during the rice-growing season in China. The CH4 emissions for the year-round flooded rice fields in China for the rice growing season over a total area of 2.66 Mha were estimated to be 2.44 Tg CH…

Nitrogen and phosphorus changes and optimal drainage time of flooded paddy field based on environmental factors

While many controlled irrigation and drainage techniques have been adopted in China, the environmental effects of these techniques require further investigation. This study was conducted to examine the changes of nitrogen and phosphorus of a flooded paddy water system after fertilizer application and at each growth stage so as to obtain the optimal drainage time at each growth stage. Four treatments with different water level management methods at each growth stage were conducted under the condition of ten-day continuous flooding. Results show that the ammonia nitrogen （ NH4-N ） concentration reached the peak value once the fertilizer was applied, and then decreased to a relatively low level seven to ten days later, and that the nitrate nitrogen （NO^-N） concentration gradually rose to its peak value, which appeared later in subsurface water than in surface water. Continuous flooding could effectively reduce the concentrations of NH^-N , NO3-N, and total phosphorus （TP） in surface water. However, the paddy water disturbance, in the process of soil surface adsorption and nitrification, caused NH]-N to be released and increased the concentrations of NH4-N and NO^-N in surface water. A multi-objective controlled drainage model based on environmental factors was established in order to obtain the optimal drainage time at each growth stage and better guide the drainage practices of farmers. The optimal times for surface drainage are the fourth, sixth, fifth, and sixth days after flooding at the tillering, jointing-booting, heading-flowering, and milking stages, respectively.

Flood Reduction Function of Paddy Rice Fields under Different Water Saving Irrigation Techniques

This study is conducted to investigate the function of paddy fields for flood reduction under different water saving irrigation techniques. A daily water balance component data including rainfall, percolation, and overflow through the paddy field levee were collected from experimental paddy rice fields during rainy season cultivation. Results show that paddy field was very effective in flood reduction. More than 40% of rainfall could be stored in the paddy fields. However, the effectiveness of paddy fields in flood reduction was highly depends on the WSI technique used. Semi dry cultivation technique was the most effective one in terms of flood reduction. It retained the rainfall up to 55.7% (365 mm) of the total rainfall (636 mm) without reducing the yield. In terms of flood volume reduction, the alternate wetting and drying performed similarly with traditional continuous flooding, i.e., 37.2% and 40.8%, respectively.

稻田控制排水对高邮灌区河道洪水过程的影响

以高邮灌区为例,采用水文-水动力模型,研究稻田控制排水措施对河道洪峰流量、水位和洪水过程的影响。结果表明,雨前通过控制灌溉适当降低田间水位可减轻稻田出流峰值,随着稻田控制水位的增加,稻田径流峰值逐渐降低。通过稻田控制排水,可降低田间出口峰值流量,改变灌区河道洪水过程,降低河道洪峰流量和水位,减轻灌区内部以及附近河道的防洪压力。

Effects of the inhibition of weed communities by winter-flooding

Winter-flooded paddy field is an agricultural method which putting a water among the winter, it is paid attention as an environmental friendly agriculture. Especially, it is said, winter-flooding is control paddy weeds and there is the farming potential that the annual rice yield is high. However, there is no detailed research about the effects of weed communities by winter-flooding, as the purpose of this study, we investigated the effects of the inhibition of weed communities (life cycle, harmful weed) by winter-flooding at a shore of Inba Lake, Chiba Prefecture, Japan, and compared them to paddy weeds in a dry paddy field. Methods examined the plant height (cm) and the cover degree class of all appearance species in each quadrant frame (1 m2). Quadrant in the two type paddies were 10 frames (D1-D10) at the control, and were 10 frames (W1-W10) at the treatment (Figure 1). In a winter-flooded paddy field, species number and plant volume of winter-annual plants decreased in the third winter after winter-flooding, In particular, the plant volume of Alopecurus aequalis, Cardamine flexuosa decreased significantly. We considered that the cause of this decrease was due to the depth of flooding (more than 10 cm). Eleocharis kuroguwai and Echinochloa oryzoides, which are perennial plants, Sagittaria trifolia, which is an annual plant, increased in a winter-flooded paddy field in the third summer after winter-flooding. We considered that these species grew thicker at places where the seeds germinated, and grew easily, because the conservation situation of the seeds fitted well under the winter-flooding conditions. They started to grow immediately after the drainage of water. The period of drainage coincided with increasing light intensity and temperature. In addition, the annual rice yield of the third year after winter-flooding was higher than that of the habitual practice rice field.

不同类型冬水田土壤中厌氧甲烷氧化古菌的垂直分布

【目的】厌氧甲烷氧化古菌是厌氧条件下减少甲烷排放的关键微生物,在全球碳素循环中发挥着重要作用,但其在不同类型冬水田土壤中的垂直分布规律尚不清楚。【方法】利用qPCR和16S rRNA测序技术,选择厌氧甲烷氧化古菌的特异性引物DP397F(q)/DP569R(q)和DP142R/DP779R,探究潴育型和潜育型冬水田的耕作层、犁底层和潴育层/潜育层中厌氧甲烷氧化古菌的丰度和生态位分布。【结果】两种类型水稻土中存在大量厌氧甲烷氧化古菌,且古菌丰度值在4.82×106~9.30×107copies/g干土,菌群丰度及其多样性水平均呈现出潴育层/潜育层>犁底层>耕作层。相关性分析表明,两种类型冬水田厌氧甲烷氧化古菌丰度均与pH值呈显著正相关(P<0.05),与SOM、WC和NH4+-N呈显著负相关(P<0.05);厌氧甲烷氧化古菌氧化速率均与SOM、NH4+-N呈显著负相关(P<0.05)。【结论】潴育型冬水田厌氧甲烷氧化古菌多样性高于潜育型冬水田厌氧甲烷氧化古菌多样性,但厌氧甲烷氧化古菌丰度值则相反。两个采样点厌氧甲烷氧化古菌群落结构多样性和丰度值均呈现出随土层深度增加而增加。厌氧甲烷氧化反应在全球甲烷调控和减少海洋和淡水生态系统甲烷释放方面发挥着重要作用,对全球碳素循环具有重要意义。

耕作制度对川中丘陵区冬灌田CH_4和N_2O排放的影响

采用静态暗箱/气相色谱法连续2 a田间原位测定,研究川中丘陵区冬灌田CH4和N2O的排放特征和不同耕作制度对冬灌田CH4和N2O排放的影响.结果表明,1a只种1季中稻冬季灌水休闲的冬灌田(PF),在水稻生长期,CH4平均排放通量为(21.44±1.77)mg.(m2.h)-1,非水稻生长期为(3.77±0.99)mg.(m2.h)-1,分别大大低于以前文献报道的在西南其它地方观测值;全年CH4排放量以水稻生长期CH4排放量为主,非水稻生长期CH4排放量仅占全年总排放量的23.2%.冬灌田N2O排放通量年均值为(0.051±0.008)mg.(m2.h)-1,且主要集中在水稻生长季,非水稻生长期N2O排放量仅占全年总排放量的8.1%.在采用水旱轮作制后,冬灌田CH4排放量大大降低,稻-麦轮作(RW)和稻-油菜轮作(RR)全年CH4排放量分别为PF的43.8%和40.6%.但冬灌田改为水旱轮作制后,N2O排放量显著增大,RW和RR的N2O年排放量分别是PF的3.7倍和4.5倍.综合考虑冬灌田在采用不同耕作制度后排放CH4和N2O的全球增温潜势(GWP),无论是短时间尺度还是长时间尺度,采用3种耕作制度全年所排放的CH4和N2O所产生的综合GWP都为:PF RW≈RR.在20a、100a和500a时间尺度上,PF分别约是RW和RR的2.6、2.1和1.7倍.冬灌田改为水旱轮作制度后能大大减少CH4和N2O所产生的综合GWP.

川中丘陵区冬灌田甲烷和氧化亚氮排放研究

采用静态暗箱 /气相色谱法对川中丘陵区冬灌田CH4 和N2 O排放特征进行连续一年的田间原位测定 .结果表明 ,种植水稻区 (种植区 )在水稻生长季平均CH4 排放速率为 2 2 76± 2 76mg·m- 2 ·h- 1,休闲期平均为 1 4 3± 0 2 0mg·m- 2 ·h- 1,全年平均为 9 6 4± 1 1 7mg·m- 2 ·h- 1;全年CH4 排放主要集中在水稻生长季 ,其累计CH4 排放量占全年总CH4 排放量的 91 2 % 未种植水稻区 (对照区 )全年CH4 平均排放速率为 2 0 3± 0 1 8mg·m- 2 ·h- 1,水稻生长季CH4 排放量占全年总排放量的 86 2 % .N2 O的排放在稻田落干时呈现脉冲排放 .在水稻生长季 ,对照区CH4 和N2 O的季节排放速率分别为 4 53± 0 38mg·m- 2 ·h- 1和 32 0 1± 5 0 2 μg·m- 2 ·h- 1,而种植区则分别为 2 2 76± 2 76mg·m- 2 ·h- 1和 73 0 4± 5 0 3μg·m- 2 ·h- 1,植株参与导致CH4 和N2 O排放速率分别增加 30 2 %和 1 2 8% .CH4 和N2 O的排放随土壤水分条件的变化呈互为消长关系 .在冬灌田中 ,即使考虑 50 0年的时间尺度 ,全年N2 O排放产生的全球增温潜势也只有CH4 的 7 9% ,与CH4 相比 ,冬灌田排放的N2 O所产生的温室效应很小 .

耕种制度对西南地区冬水田甲烷排放的影响

1995年5月15日～1997年5月15日两年在田间条件下研究我国西南地区冬水田甲烷排放量及耕种制度的影响。结果表明：冬水田水稻生长期甲烷排放通量在0．47～171．12mg／m2·h间，平均值达33．91mg／m2·h并且在每年长达250～280天的非水稻生长期内仍在排放甲烷，排放通量在2．51～54.52mg／m2·h间，平均为13.24mg／m2·h，使得冬水田甲烷年累积排放量高达165．82g／m2，是目前世界上各类稻区各类利用方式下甲烷排放量最大的一类稻田。与冬水田相比，半旱垄作（中稻）能减少甲烷年累积排放量3.36％和33．53％；而水稻生长期半旱垄作（稻麦）和水旱轮作（稻麦）甲烷排放通量比冬水田低34．11％和38．47％～66．65％，甲烷年累积排放量只占冬水田的36.7％和11．96％～34．27％。采用半旱垒作（稻麦）和水旱轮作（稻麦）是减少我国西南地区冬水田甲烷排放量最有效的方法之一。

水分管理影响稻田甲烷排放研究进展

水分管理是影响稻田甲烷(CH4)产生、氧化与排放的重要因素之一。根据国内外文献资料,综述了非水稻生长期和水稻生长期水分管理对稻田CH4产生排放的影响,以及非水稻生长期水分管理对水稻生长期CH4产生排放的影响,并提出有待研究的内容。综合多年的研究结果表明,冬季淹水不仅引起冬季(非水稻生长期)CH4的大量排放,还影响水稻生长期CH4排放量。非水稻生长期土壤水分含量越高,随后水稻生长期CH4排放量越大,产生和氧化能力越强。水稻生长期烤田相对于持续淹水能大量减少CH4排放。

灌溉稻田水稻旱作技术要素及产量形成

研究灌溉稻田水稻旱作法旨在构建类似旱地作物高产的稻作技术体系,以旱作求节水、以高产求效益。水稻旱作法是吸取我国稻作传统技术、新应用技术及强化栽培技术之精华整合而成,其核心是限量用水、湿栽旱管与选用超级杂交稻、培育短龄壮秧带土移栽及稀植等4个要素。研究结果表明,灌溉稻田水稻旱作法的技术框架基本可行,收到了高产、节水与改善稻米品质的效果。超级杂交稻组合两优培九、协优9308的旱作产量达9～10 tha-1,节约用水45%,灌溉水利用率高达3.0～4.0 kgt-1,并提高稻米的加工品质与营养品质。但与常规灌溉水稻相比,旱作水稻的穗型变小,结实率与千粒重下降。因此,本旱作法的几个主要技术要素有待改进,如超稀植的程度与提高结实率的方法。初步提出“湿栽护苗、旱管培根、沟水育穗、干润防衰”的湿栽旱管、限量用水技术的16字诀,就灌溉田旱作稻产量形成的特点作了初步的描述。

改良剂对冷浸田土壤团聚体稳定性的影响

采集冷泉烂泥型和冷浸烂泥型冷浸田土壤,设置不添加任何物质和分别添加白云石粉、生物炭、粉煤灰、聚丙烯酰胺和混合改良剂等6个处理,在持续淹水和干湿交替2种水分管理下进行室内模拟培养试验。测定培养后第30、90、180和360天土壤团聚体分布及其水稳性。结果表明:在干湿交替条件下,改良剂对冷泉烂泥型和冷浸烂泥型冷浸田土壤团聚体的形成有促进作用,并随着培养时间的延长逐渐增强,达到180d时基本稳定;在持续淹水条件下,改良剂对2种类型冷浸田土壤团聚体的形成具有短暂促进作用,且不稳定。在几种改良剂中,粉煤灰和混合改良剂(粉煤灰+生物炭+聚丙烯酰胺)对2种类型冷浸田土壤大团聚体形成均表现促进作用。

冬水田休闲期温室气体排放通量的研究

冬水田生态系统在西南地区大面积存在,长期淹水,其温室气体排放可能对中国温室效应有重要贡献。采用静态箱-气相色谱法对川中丘陵地区冬水田休闲期温室气体排放通量进行了原位观测研究,获得冬水田休闲期CH4、CO2、N2O的平均排放通量依次为5.37mg·m-·2h-1、81.88mg·m-·2h-1、0.01μg·m-·2h-1。同时研究发现,冬水田休闲期温室气体排放通量具有明显的动态变化,土壤温度和水分在很大程度上影响着3种温室气体的排放通量。研究还表明,改冬水田为水旱轮作可减少甲烷排放。

间歇灌溉对稻田毒死蜱迁移转化特征的影响

间歇灌溉作为丘陵区稻田常见的灌溉方式之一,其强烈的干湿交替过程会影响稻田中污染物的环境行为。在室内批量平衡吸附试验的基础上,通过农药野外喷施试验与动态观测,研究了间歇淹水和持续淹水条件下石灰性紫色土发育的稻田中毒死蜱的迁移转化特征。结果表明,土壤对毒死蜱的吸附能力远远强于其对毒死蜱主要降解产物3,5,6-三氯-2-吡啶醇(3,5,6-TCP)的吸附能力,毒死蜱的吸附容量常数范围为34~170,TCP的吸附容量常数范围为0.62~0.67,且对毒死蜱和TCP的吸附容量常数及分配系数均以耕作层土壤高于非耕作层土壤;施药后田面水中毒死蜱及TCP的浓度均随时间迅速下降,两者均可通过土壤大孔隙优先流快速迁移至50cm深处;间歇灌溉处理稻田土壤孔隙水中两者的浓度总体低于持续淹水处理;降雨和灌溉事件会导致两者由土壤固相迅速向水相发生短时间、高浓度释放与淋失。

不同耕作制对稻田甲烷排放通量的影响

耕作制度对稻田甲烷排放通量有显著影响。水稻———小麦轮作，稻田甲烷平均排放通量为５．３７ｍｇ／ｍ２·ｈ－１，仅是冬水稻田排放通量１６．１０ｍｇ／ｍ２·ｈ－１的１／３。耕作制也影响稻田甲烷排放的季节变化规律。

不同渗漏强度条件下淹水稻田中氨态氮转化和运移的研究

本文以溶质运移理论为基础，建立了淹水稻田中氨态氮（－Ｎ）运移、转化的数学模型，并以室内土柱试验进行了验证．应用该模型模拟计算了控制不同稻田中渗漏强度、施肥管理制度下淹水稻田中（－Ｎ）的运移及分布动态．可为拟定合理的水肥管理措施提供依据．

稻田抗洪抗旱的功能 Ⅱ.深灌对早稻光合作用的影响

为探讨深灌对水稻光合作用和光合作用环境的影响效果，从早季栽培杂交水稻威优４０２抽穗扬花期开始，连续深灌１０ｄ，维持２０ｃｍ深水层．结果表明：早稻成熟期深灌不影响植株个体和群体的光合作用，也不明显影响光合作用环境．

稻田抗洪抗旱的功能 Ⅰ.深灌对水稻产量及营养器官的影响

为探讨稻田抗洪抗旱功能，并为水稻深灌提供理论依据，以杂交水稻威优４０２作早季栽培，从抽穗扬花期开始，比较分析了连续１０ｄ维持２～２０ｃｍ不同深度水层灌溉对水稻产量及营养器官的影响．结果表明：深灌能导致杂交水稻茎秆伸长，灌水愈深，伸长的程度愈大．在２～２０ｃｍ范围内，不同深度灌溉处理间产量的差异及穗粒结构的差异未达显著水平．因此认为，可在早稻抽穗期深灌水层至２０ｃｍ，并维持１０ｄ时间．

稻田垄作免耕对紫色水稻土硝化微生物的影响

为研究长期垄作免耕对紫色水稻土硝化微生物的影响,以常规平作和冬水平作作为对照处理,采用实时荧光定量PCR对土壤氨氧化细菌（AOB）和氨氧化古菌（AOA）的amoA基因拷贝数进行了测定.结果表明：垄作免耕显著增加土壤有机质和全氮含量.垄作免耕条件下,AOB的amoA基因拷贝数为8.3×10^5/g干土,比常规平作和冬水平作分别高43%,158%;AOA的amoA基因拷贝数为4.5×10^7/g干土,比常规平作和冬水平作分别高201%,632%,均具有显著性差异（p〈0.05）,稻田垄作免耕可增加土壤中硝化微生物的数量,对土壤中具有硝化功能的氨氧化细菌和氨氧化古菌具有积极影响.3种耕作方式土壤中AOA amoA基因拷贝数均比AOB amoA基因拷贝数高1-2个数量级,AOA可能在其中起重要作用.

江西省冬水田休闲期甲烷排放研究

利用85个气象站的观测资料和14个农业气象观测站水稻生育期资料,以及第二次土壤普查数据,基于气温与冬水田休闲期甲烷排放通量的指数关系模型,分析了江西省2000—2013年冬水田休闲期甲烷排放因子和排放量的时空分布特征。结果表明:1)江西省冬水田甲烷排放因子无显著的上升趋势;2)江西省冬水田休闲期甲烷排放平均通量为7.66 mg/(m2·h),平均年排放因子为406.5 kg/hm2,其中2007年排放通量为1.214×105 t,占稻田甲烷排放的12.4%;3)吉安、赣州、抚州、上饶和宜春市是江西省冬水田休闲期甲烷排放的主要地区,累计约占全省排放量的75.0%;4)各设区市冬水田休闲期甲烷排放量主要决定于各地水田面积的大小,赣州市除外。