A short discussion on the chemical composition of allophane based on the data of Yoshinaga in 1966

Many scientists have attempted to discern the chemical composition and the structure of allophane (2, 4–6). Yoshinaga (7) presented the chemical composition of eighteen samples of pure allophane in detail, and concluded as follows: All samples consisted principally of silica, alumina, and water. The silica-alumina molecular ratio ranged from about 1.3 to 2. Molecular ratios of ignition loss (+H₂0) and total water (±H₂O) to alumina were nearly constant, with the averages about 2.5 and 5.7, respectively. The chemical composition of soil allophane fell into a relatively narrow range, and the change in the percentage composition of the three major elements had a regularity.     

Influence of water regime on growth,yield, and nitrogen uptake of rice

Abstract

Greenhouse and field experiments were conducted to study the effects of water regime on growth of rice. The greenhouse experiment investigated the effects of two water regimes‐continuous flooding and flooding with soil drying between crops for 2 to 3 weeks on the growth of rice during six cropping (for six week each) on seven soils varying widely in total N contents (0.07 to 0.35%). The results averaged for the 7 soils indicated that the drymatter production or N uptake of rice was not affected by the water regimes during the six croppings.

The field experiment conducted during the dry season for two consecutive years (1976 and 1977) on a near neutral clay soil studied the effects of three water regimes (continuous flooding alternate flooding and soil drying every 2 weeks, and continuous flooding with 2 weeks mid season soil drying after 6 weeks of transplanting) and three levels of fertilizer N (0, 100 and 200 kg N/ha as urea) on grain yield and N uptake of rice. The results confirmed the absence of any significant reduction in grain yield or N uptake as a result of any of the soil drying treatments during the growing season on the unfertilized plots carrying a rice crop. On the plots fertilized with 100 or 200 kg N/na, alternate flooding and drying resulted in a significant depression in both grain yield and N uptake. Soil analysis supported heavy losses of N in the fertilized plots that underwent alternate flooding and soil drying apparently by nitrification and denitrification reactions.

The results of this study suggest that alternate flooding and drying of soils in the presence of established rice plants itiay not cause a significant loss of nitrogen in unfertilized plots although in plots fertilized with high rates of N the losses may be large as indicated by the performance of rice crop.     

微曝气生态浮床水芹吸收NP的特性及其对系统去除NP贡献的研究

针对污染河水黑臭缺氧、NH4^＋—N含量高等问题,研发了一种“漂浮载体悬挂弹性生物膜填料＋水生植物并辅以人工微曝气系统”的微曝气生态浮床系统,以漂浮植物水芹为例研究了系统中水芹对N、P的吸收特性和去除作用。结果表明,随着水芹的生长其生物量干重显著增加,生长80d左右时总生物干重在2497．2—3144．4g·m^-2之之间,上、下部生物量比平均为13．4。不同部位水芹N、P的含量不同,总的趋势为含N量叶〉根〉茎,含P量茎〉根〉叶。不同生长时间水芹N、P含量及其吸收速率不同：随着水芹的生长,组织内N、P含量逐渐降低,N的吸收速率总趋势为60-80d〉35-60d〉1-35d,P的吸收速率总趋势为35-60d〉1-35d〉60-80d。而随着水芹的生长吸收N、P的总量却在逐渐增加,吸收N的总量从17．69g·m^-2增加到61．66g·m^-2,吸收P的总量从4．99g·m^-2增加到13．55g·m^-2,这主要取决于自身的生物量和N、P的含量。水芹对N、P的积累主要集中在上部,分别占N、P吸收总量的92．2％-93．4％、92．5％～93．1％。水芹生长35、60、80d时,吸收N量占系统TN去除量的比率分别为4．50％、6．06％和6．87％,水芹对P的吸收量分别占系统去除P总量的18．53％、26．82％、22．00％。水芹对N、P的吸收仅是微曝气生态浮床净化系统去除N、P的一个途径,但水芹根际微生物的作用不可忽视。     

The influence of root hairs on the uptake of phosphate

Abstract

The uptake of phosphate from stirred solution by roots was not affected by root hairs. In contrast to this, root hairs appreciably increased the uptake of phosphate from a clay soil.     

旱地高产小麦品种籽粒锌含量差异与氮磷钾吸收利用的关系

【目的】明确旱地条件下高产小麦品种籽粒锌含量差异与氮磷钾吸收利用的关系,为品种选育和科学施肥提供依据。【方法】于2013—2016年连续三年在黄土高原旱地进行田间试验,试验采用裂区设计,主处理为不施肥(CK)和施肥(NP),副处理为来自我国主要麦区的123个品种。施肥处理为N 150 kg/hm^2 (尿素,含N46%)、P_2O_5 100 kg/hm^2 (过磷酸钙,含P_2O_5 16%)。成熟期在每个品种中间2行随机抽取30穗小麦,连根拔起后,从根茎结合处剪断弃去根系,分为茎、叶、颖壳(含穗轴)和籽粒,称风干重。分析了样品中氮、磷、钾、锌含量,计算了养分的吸收量及转移量。【结果】施肥条件下高产小麦品种籽粒锌含量存在显著差异,高锌品种比低锌品种显著高54%。高锌品种的籽粒氮、磷含量分别比低锌品种显著高9%、7%,钾含量无显著差异,施肥使两组品种的氮含量显著提高,磷钾含量降低。高产高锌品种具有更高的籽粒和地上部氮、磷吸收能力,钾吸收能力与低锌品种相比无显著差异,施肥可使高锌品种的氮磷钾吸收量增幅高于低锌品种;两组品种间的氮、磷转移能力无显著差异,而高锌品种的钾转移能力较低,且两组品种的氮磷钾转移能力因施肥降低幅度一致。【结论】旱地条件下土壤养分供应充足时,高产高锌小麦品种的氮磷吸收能力强,钾转移能力弱,籽粒氮磷含量高,与低锌品种相比钾含量无显著差异。通过品种选育可同时提高旱地高产小麦籽粒锌和蛋白质含量,并提高磷含量。考虑到磷含量高时会降低籽粒锌的生物有效性,生产中通过施肥措施,适当调控磷肥,增加氮肥,在提高小麦籽粒氮锌含量的同时提高籽粒锌的生物有效性。     

Long-term grazing exclusion influences arbuscular mycorrhizal fungi and their association with vegetation in typical steppe of Inner Mongolia,China

It is not certain that long-term grazing exclusion influences arbuscular mycorrhizal(AM) fungi and their association with steppe vegetation. In this study, soil and plant samples were collected from two sites of grazing exclusion since 1983(E83) and 1996(E96), and one site of free-grazing(FG) in the typical steppe of Xilinguole League, Inner Mongolia, China, and assayed for soil basic physicochemical properties, AM fungal parameters, aboveground biomass and shoot phosphorus(P) uptake as well. The results showed that long-term grazing exclusion of E83 and E96 led to less drastic seasonal changes and significant increases in spore density, hyphal length density and root colonization intensity of AM fungi and even soil alkaline phosphatase activity, by up to 300, 168, 110 and 102%, respectively, compared with those of FG site. In addition, the total aboveground biomass and shoot P uptake of E83 and E96 were 75–992% and 58–645%, respectively, higher than those of FG. Generally, the root colonization intensity, spore density, and hyphal length density of AM fungi were all positively correlated with the aboveground biomass and even shoot P uptake of plant. These results may imply that grazing exclusion play a critical role in increasing the growth of AM fungi, and subsequently, may increase plant P uptake and aboveground biomass production. Moreover, the spore density could sensitively reflect the impacts of long-term grazing exclusion on AM fungi since survival strategy of spores in soil.     

畜禽养殖废水MAP法磷回收试验研究

采用磷酸铵镁法（MAP）回收模拟畜禽养殖废水中的磷,考察了pH值、氮磷比、镁磷以及磷浓度对磷回收率的影响。结果表明,pH是影响MAP结晶沉淀反应产生的重要因素,最佳pH位于9-10;当N/P比超过1∶1,N/P比值变化对P回收率无显著影响,Mg/P对P回收率影响较为明显,适宜的Mg/P比为1∶1左右;磷浓度对磷回收率影响甚小,当磷浓度由5 mg/L增加到150mg/L时,磷回收率均处于99%以上。     

有机、无机磷肥配施对宁夏引黄灌区露地蔬菜磷素吸收利用与磷平衡的影响

2011—2013年,在宁夏引黄灌区利用田间定位试验研究了不同有机、无机磷肥配施对露地蔬菜的产量、磷素吸收利用、土壤无机磷残留和磷平衡的影响,并提出了合理的磷肥投入阈值。结果表明,过量增施磷肥对露地蔬菜的增产作用不显著。露地蔬菜经济产量与施磷量都符合二次曲线关系,花椰菜、紫甘蓝和大白菜最大产量施磷量分别为P2O5332.3、304.5、377.8 kg/hm2,最佳经济施磷量分别为P2O5282.9、271.2、365.3 kg/hm2。增施磷肥能促进露地蔬菜地上部磷素吸收累积,磷肥利用率随化学磷肥用量增加而降低。随着施磷水平的提高,0~20 cm土壤Olsen-P和Ca Cl2-P含量都呈增加趋势。土壤磷平衡与施磷量呈线性正相关关系,化肥磷施用量越高土壤磷素盈余越大。2011—2013年花椰菜、紫甘蓝和大白菜季合理的磷肥投入阈值范围分别为[141.0,332.3]、[107.1,304.5]和[104.9,377.8],施磷量、蔬菜产量及地上部吸磷量是影响该阈值范围的主要因素。     

一次性施肥对水稻产量及养分吸收的影响

通过田间小区试验研究一次性施肥对水稻生长的作用效果,进而明确水稻一次性施肥是否能达到传统分次施肥的增产效果及其机制。本研究以传统分次施肥为对照,研究了一次性施用常规速效肥、硝化抑制剂DCD型稳定肥、硝化抑制剂DMPP型稳定肥以及树脂包膜控释肥对水稻产量、产量构成要素、分蘖动态、灌浆期光合速率以及主要生长节点植株氮、磷、钾含量的影响。试验表明,分别一次性施用各种类缓/控释肥均可以满足水稻各生长期对氮、磷、钾的吸收,促进水稻分蘖、增加水稻有效穗数及穗粒数,增强水稻光合速率和碳氮代谢水平,提高或保持了水稻正常产量。一次性施用缓控释肥较传统分次施肥对水稻具有稳产或增产的作用是因为其能在整个生育期内满足水稻的养分供应,在不降低千粒重及结实率的基础上提高或是保持水稻的有效穗数及穗粒数。     

黑液腐殖酸液体肥料对棉花生长及土壤理化性质的影响

【目的】探讨黑液腐殖酸液体肥料(Humic acid liquid fertilizer,HALF)对棉花生长及土壤性质的影响,为其在棉花生产中的应用提供参考依据。【方法】通过网室-盆栽试验,以不施肥(CK)为对照,研究施用A型、B型和C型3种HALF肥料(HALF-A、HALF-B、HALF-C),N、P、K配施(NPK处理)以及N、P、K与HALF-C配施对棉花地上部干物质积累、养分吸收和土壤养分含量等的影响。【结果】与NPK处理相比,施用HALF肥料能使棉花地上部干物质积累量提高10.0%~65.8%,其中以HALF-C与NPK配合施用处理棉花生长最好。与NPK处理相比,施用HALF和HALF-C+NPK肥料使棉花地上部氮吸收量增加24.3%~101.4%,磷吸收量增加58.3%~100%,钾吸收量增加10.1%~56.2%,但3种HALF肥料效应不同。施用合适的HALF肥料能显著降低土壤pH0.06~0.11,提高土壤有机质和土壤速效养分含量。【结论】3种HALF肥料均能促进棉花生长,提高土壤养分含量,其中以HALF-C应用效果最好。