石灰施用对酸性土壤矿物结合有机碳形成的影响

为了解石灰施用对酸性土壤矿物结合有机碳的影响并促进酸性土壤的碳固定,本研究整合已发表的相关研究并在室内设置培养试验探究石灰添加调控酸性红壤矿物结合有机碳形成的可能机制。结果表明：大部分已发表的研究发现石灰添加可以显著促进酸性土壤中矿物结合有机碳的形成。室内控制试验发现石灰添加显著促进了秸秆分解转化为微生物生物量碳,这很可能是石灰促进矿物结合碳形成的主要机制之一。室内控制试验还发现石灰添加增加了钙键结合碳的含量,但是降低了铁铝结合碳的含量。综上可知,石灰添加有利于作物秸秆在酸性土壤中被微生物分解转化为矿物结合有机碳,但可能会导致不同化学键结合碳的相对含量发生变化。     

不同栽培方式和秸秆还田对水稻产量和营养品质的影响

为阐明水稻产量和营养品质在不同栽培方式和秸秆还田条件下的表现特性, 以两优培九(籼稻)为材料, 常规水作(CFC)为对照, 通过长期定位试验(2001—2010年)研究了覆膜旱作(PFMC)、裸地旱作(NMC)和秸秆还田对水稻产量、精米中蛋白质和氨基酸、糙米中铁和锌含量的影响。2008—2010三年试验结果(平均值)表明, 与CFC相比, PFMC能显著增加水稻产量, 增产幅度达8.0%, 精米中总氨基酸含量下降3.5%, 精米中蛋白质, 糙米中铁锌含量与CFC处理差异不显著; NMC处理产量显著下降5.1%, 蛋白质、总氨基酸和铁含量分别下降4.4%、9.3%和11.9%。秸秆还田较不还田处理, CFC条件下, 产量增加了113.6 kg hm^-2; NMC条件下, 产量增加142.6 kg hm^-2; PFMC条件下, 产量增加522.1 kg hm^-2; 三种栽培方式产量平均增加3.3%, 糙米中的铁和锌含量平均增加3.1%和6.4%, 精米中蛋白质和总氨基酸含量差异不显著。本试验结果表明, PFMC能显著提高水稻产量, 秸秆还田能显著提高水稻产量和稻米中铁、锌含量。     

Incorporation of 14CO2 and 15NH4 into amino acids of the two subunits of fraction 1 protein in spinach leaves

In the investigation of nitrogen metabolism in plants, it is important to deal with proteins, which are the end-products of nitrogen metabolism.     

The difference in N metabolism between NAD(P)H-specific NR-deficient mutant and wild-type barley (Hordeum vulgare L.)

Abstract

Barley (Hordeum vulgare L.) is an important crop for cereal research. In this study, two barley genotypes the wild-type (Steptoe) and the mutant (Az12) were used. An experiment was conducted using ¹⁵N-tracing method to NADH-specific nitrate reductase (NR)-deficient mutant seedling of barley. The N-depleted seedlings were exposed to a nutrient solution containing nitrate and nitrite, and were labeled with ¹⁵N for 38?h under (14?L/10D) cycles. The two genotypes utilized ¹⁵NO₃^? and accumulated it as reduced ¹⁵N, predominately in the shoots. However, nitrate reduction in the Az12 shoots was 9% lower than that in the Steptoe shoots at 38?h. As a result, in the Az12, nitrate accumulation in shoots was 78% higher than that in the Steptoe. Accumulation of reduced ¹⁵N in the Az12 roots was nearly similar to that of the Steptoe roots, but 8% lower in the Az12 shoots than in the Steptoe shoots at the end of the experiment. Also for both genotypes, root contribution increased during L/D cycles and decreased during the subsequent light cycle. Upward transport of reduced ¹⁵N via the xylem in the Az12 was nearly two times higher than that in Steptoe during the second light period (24–38?h). In both genotypes, xylem transport of reduced ¹⁵N was far exceeded the downward phloem transport. Abbreviations Anl accumulation of reduced ¹⁵N from ¹⁵NO₃^? in non-labeled roots of split roots

Ar accumulation in roots of reduced ¹⁵N from ¹⁵NO₃^?

As accumulation in shoots of reduced ¹⁵N from ¹⁵NO₃^?

Rr ¹⁵NO₃^? reduction in roots

Rs ¹⁵NO₃^? reduction in shoots

Tp translocation to root of shoot reduced ¹⁵N from ¹⁵NO₃^? in phloem

Tx translocation to shoot of root-reduced ¹⁵N from ¹⁵NO₃^? in xylem

FW fresh weight

     

稻田秸秆还田的土壤增碳及温室气体排放效应和机理研究进展

秸秆还田是水稻生产中普遍采用的一项措施,具有固碳和促进养分元素循环、减少生产中的化肥施用等生态环境功能,但亦存在温室气体排放问题。鉴于秸秆还田对稻田产生固碳和温室气体增排的双重效果,本文综述了稻田生态系统秸秆资源利用现状,探讨了秸秆还田的土壤增碳效应,总结了秸秆还田下的温室气体(CO2、N2O和CH4)排放过程及其微生物过程机理。提出了应加强秸秆还田增碳过程中的物理–化学过程与微生物过程的耦合机理及其对固碳功能的作用机理、稻田温室气体产生机制与控制途径的研究,以实现稻田土壤固碳减排增汇和增产的共轭双赢作用。     

The Effect of Nitrogen Catch Crops on the Nitrogen Nutrition of a Succeeding Crop: I. Effects through Mineralization and Pre-emptive Competition

Abstract

The effects of catch crops on the nitrogen nutrition of a succeeding carrot crop were investigated. An attempt was made to distinguish the effects of growth and nitrogen uptake by the catch crop from the effect of mineralization of its residues. It was found that growth and nitrogen uptake by catch crops could reduce the nitrogen supply to the succeeding carrot crop through pre-emptive competition, whereas mineralization of nitrogen from the catch crop residues increased the nitrogen supply to the carrot crop. Nitrogen uptake by the carrots was thus highest where catch crop residues were incorporated on plots where no catch crop had been grown. The effect of the mineralization was found mainly to influence topsoil mineral nitrogen contents and the early nitrogen uptake by carrots, whereas the effect of pre-emptive competition was to reduce subsoil mineral nitrogen content and the nitrogen uptake by carrots late in the growing season. The apparent recovery of catch crop nitrogen by carrots was between 8 and 33%.     

稻草不同还田方式对双季水稻产量及稻米品质的影响

通过2年田间定位试验,设置施肥区稻草还田（NPK+S）、 稻草烧灰还田（NPK+SI）和稻草不还田（NPK）以及相对应的不施肥区对照共6个处理,研究了不同稻草还田方式对双季水稻产量及稻米品质的影响。结果表明, 在施用等量氮、 磷、 钾养分条件下, NPK+S处理具有提高早稻分蘖数及成穗率、 中后期叶面积指数及地上部干物质量,增加叶片叶绿素含量（SPAD值）, 增加水稻单位面积有效穗数的显著作用,但对晚稻的作用不明显; 早稻NPK+S处理的产量较其他两个处理两年平均增幅为3.78%~8.77%, 晚稻随着稻草还田次数的增加,NPK+S与NPK+SI处理的产量趋于接近,但较NPK处理增产5.66%~7.32%。不施肥条件下,稻草还田（CK+S）处理对早、 晚稻生长发育的影响明显大于稻草烧灰还田（CK+SI）和稻草不还田（CK）, 且其早、 晚稻产量也极显著高于后两个处理。研究还发现,稻草还田能提高早、 晚稻的稻米食味品质,但降低其外观品质和营养品质以及晚稻稻米的加工品质。以上结果说明,进行稻草全量还田对持续提高双季水稻产量具有重要意义。     

东北冷凉地区秸秆还田方式对水稻光合、干物质积累及氮素吸收的影响

为探讨东北冷凉地区水稻秸秆适宜的还田方式,开展大田定位试验,研究了秸秆直接还田和炭化还田对水稻光合能力、干物质积累的影响。结果表明,施用氮肥条件下2种还田方式均能促进水稻地上部干物质积累,尤其是炭化还田在成熟期较直接还田干物质积累更多;不施用氮肥条件下炭化还田地上部干物质积累量有增加趋势,但直接还田与对照相比却降低了地上部干物质量。2种还田方式都有提高氮肥利用率的趋势,炭化还田和直接还田的氮肥利用率分别为59%和56%。     

秸秆氨化还田对农田水分与夏玉米产量的影响

寻求秸秆资源的有效还田方式对干旱半干旱区农业的可持续发展具有重要意义。本文于2014年和2015年在夏玉米全生育期设置2个秸秆氨化水平（A0:未氨化冬小麦秸秆,A1:氨化冬小麦秸秆）和2个秸秆长度水平（L0:粉碎为短秸秆,L1:大于50mm冬小麦长秸秆）翻压还田,分析不同预处理秸秆还田条件下夏玉米全生育期株高、叶面积指数、地上部生物量、冠层覆盖度等生长指标以及土壤贮水量、耗水量、产量和水分利用效率的变化。结果表明,2年夏玉米氨化短秸秆翻压还田处理（A1L0）平均土壤体积含水率较未氨化长秸秆处理（A0L1）分别提高了10.7%和6.4%;氨化处理土壤体积含水率明显高于未氨化处理,但不同处理间耗水量差异较小;夏玉米灌浆期氨化短秸秆翻压还田处理（A1L0）的平均冠层覆盖度（CC）比其他处理高3.7%~10.7%;成熟期氨化短秸秆翻压还田处理（A1L0）的平均地上部干物质量比其他处理高 2.1%~9.5%,平均产量比其他处理增加2.8%~9.1%,平均水分利用效率比其他处理增加1.7%~7.4%;氨化短秸秆翻压还田处理（A1L0）能显著提高夏玉米地上部生物量与籽粒产量。因此,氨化短秸秆翻压还田能有效促进夏玉米生长,保持较好的土壤水分条件,有助于提高夏玉米产量和水分利用效率。     

秸秆还田与耕作方式对双季稻产量及土壤肥力质量的影响

中国南方双季稻区秸秆资源丰富,但秸秆还田与耕作制度的最佳组合方式目前尚不明确。通过连续3年的田间定位试验(2013—2015年),研究秸秆还田条件下不同耕作方式对双季稻产量及土壤肥力质量的影响。试验处理包括翻耕与秸秆不还田(CT)、翻耕与秸秆还田(CTS)、旋耕与秸秆还田(RTS)和免耕与秸秆还田(NTS)。结果表明:与CTS处理相比,CT和NTS处理早稻平均产量分别降低3.5%和5.2%,晚稻平均产量分别降低3.6%和6.4%,其中,NTS处理晚稻产量显著低于CTS处理(p0.05);与CTS处理相比,RTS处理早稻和晚稻平均产量分别增加6.1%和3.1%。秸秆还田条件下土壤有机碳(SOC)、全氮(TN)、有效磷(AP)和速效钾(AK)均呈增加的趋势,其中,2015年CTS、RTS和NTS处理SOC、TN、AP和AK显著高于CT处理。与CT处理相比,NTS处理土壤容重(BD)增加4.9%(p0.05),CTS和RTS处理BD分别降低4.1%和5.2%,其中RTS处理显著低于CT处理。与CT处理相比,秸秆还田下CTS、RTS和NTS处理土壤p H分别降低1.9%、1.5%和2.5%,其中,CTS和NTS处理显著降低。CT处理土壤肥力质量呈下降的趋势,秸秆还田条件下各处理土壤肥力质量均呈提高的趋势,其中,2015年RTS处理分别高于CTS、NTS处理16.4%和80.4%。由此可见,在南方双季稻区,与常规翻耕和免耕相比,秸秆还田条件下,采用长期旋耕的方式能够进一步提高土壤肥力质量和水稻产量。