Phytosynthetic bacteria (PSB) as a water quality improvement mechanism in saline-alkali wetland ponds

The efficiency of phytosynthetic bacteria (PSB) to improve the water quality in saline alkali ponds was studied, the result showed that (1) PSB application could increase the content of DO, NO\+-\-3\|N and effective phosphorus (EP) in ponds; (2) the changes of COD were not evident, just effective in later period after PSB application; (3) PSB application could decrease the contents of NH\+-\-4\|N (NH\-3\|N), NO\+-\-2\|N ; (4) PSB application could improve the structure of the effective nitrogen (EN) and EP, stimulate the growth of phytoplankton, and increase primary productivity, and finally increase the commercial profits of ponds because of the increase of EP and the decrease of EN contents; (5) the effect exerting speed of PSB was slower, but the effect sustaining time was longer; (6) the appropriate concentration of PSB application in saline alkali wetland ponds was 10×10 -6 mg/L, one time effective period was more than 15 days. So PSB was an efficient water quality improver in saline alkali ponds.

Biological improvement of saline alkali soil reference system:A review

This work presents a reference system overview to improve the efficiency of biological improvement of saline-alkali soil developed during the last thirty years, ranging from connotation, general methods and species, soil desalination, soil structure, soil organic content, microbial flora, enzyme activity, yield and economic benefits. The reference system presented is divided into three main groups: suitable varieties, suitable cultivation measures, and a comprehensive evaluation system.There has been a lot of research on biological improvement of saline alkali soil, but these studies are very fragmented and lack a comprehensive standard system. Also, there is a lack of practical significance, particularly with regard to optimal species, densities and times of sowing for particular regions. On the other hand, the corresponding cultivation measure is very important. Therefore, a reference system plays an important role to the effect of biological improvement of saline alkali soil.

Effects of Soil Improver on Wheat in Saline-Alkali Lands in the Yellow River Delta

Field experiment carried out to test the effects of soil improver on wheat yield and soil physical-chemical properties. The results indicated that soil improver could optimize soil aggregates structure, decrease soil bulk density, soil pH and soil salt content, increase soil organic matter and 1 000-grain weight, thereby enhancing wheat yield. With the increase of soil improver application amount, soil physical-chemical properties became better and wheat yield increased. However, there was no significant difference in the treatments with the application amounts of 3%, 4% and 5%. In addition, the treatment of reducing nitrogen showed no superiority in soil physical-chemical properties and wheat yield, indicating that sufficient nitrogen was essential for the growth of wheat.

Saline-alkali land in the Yellow River Delta: amelioration zonation based on GIS

Soil salinization is one of the major land degradation types and has greatly influenced sustainable agricultural development. Zonation of saline-alkali land is the precondition for effective amelioration. The present situation of saline-alkali land is monitored by remote sensing image processing. Causes for land salinization are analyzed, especially the two key factors, ground water depth and its mineralization degree, are analyzed by using long-term observation data. Previously, zonation of saline-alkali soil was made descriptively and artificially. Based on the present situation of saline-alkali land, ground water depth and ground water mineralization degree, the zonation of saline-alkali land for amelioration in the Yellow River Delta was completed quantitatively. Four different types of saline-alkali land amelioration zones are delineated, namely, easy ameliorated zone, relatively difficult ameliorated zone, difficult ameliorated zone and unfavorable ameliorated zone. Countermeasures for ameliorating saline-alkali soils are put forward according to ecological conditions of different saline-alkali land zones.

The Salt Reduction and Yield Increase Effects of Smashing Ridging Transforming Saline-alkali Land and Its Development Prospects

Using smashing ridging tillage machine and smashing ridging technology invented by the authors, transformation test of saline-alkali land by smashing ridging was conducted respectively in Xinjiang and Shaanxi during 2015 -2016. The results showed, in severe saline-alkali soil of Xin-jiang ,after growing cotton by smashing ridging, total salt in soil decreased by 31.31 %, cotton production increased by 48.80%, and salinity level declined from severe to moderate; in mild saline-alkali soil of Shaanxi, after growing summer corn by smashing ridging, total salt in soil decreased by 42.37%, corn yield increased by 34.83%, salinity degree changed from mild desalination to normal farmland ; in Ningxia, Inner Mongolia 7 Gansu ,Jilin, Henan, Hebei, and so on, smashing ridging tillage practice in different types of saline-alkali land was conducted ; according to the salt reduction and yield increase effects of saline-alkali land after smashing ridging, the development prospect of smashing ridging technique in improvement and application of saline-alkali land was proposed.

Transport Characteristics of Soil Salinity in Saline- alkali Land under Water Storage and Drainage Conditions

To test the variation and transport of soil salinity in saline- alkali land under water storage and drainage treatments,an experimental model was established in Fuping,Shaanxi Province,2009. The variation of soil salinity during 0- 160 cm soil depth under the two treatments was determined and analyzed. Results showed that the average soil water content under water storage treatment was 4. 47% higher than that under drainage treatment,which means that the water storage treatment could help to improve soil moisture to satisfy the crop's growth needs. The profile distribution of soil soluble solids( TDS),anion( Cl-,HCO3-,SO2-4) and cation( Ca2 +,Na+,K+) content and the variation of soil p H were also measured and analyzed. PCA( Principal Component Analysis) was used to explore the relationship between the soil salinity and its ions,which showed that the water storage treatment could significantly decrease the surface salinity of soil and accelerate the desalination of topsoils,and finally,the soil quality was improved significantly,demonstrating that the water storage treatment has a remarkable effect on soil salinity management.

我国沿海滩涂盐碱地改良与综合利用现状与展望

沿海滩涂盐碱地是我国重要的后备土地资源,其生态生产力价值是沿海“蓝碳”的重要组成部分。针对长期以来沿海地区盐碱地综合利用效率低下和经济、生态、社会效益不高等问题,本文通过梳理沿海滩涂开发的历史和现状,总结不同改良方式主导的滩涂盐碱地利用方式的转变,评估滩涂盐碱地的生态生产力价值,分析滩涂盐碱地利用亟需解决的问题,以期为新时期我国沿海滩涂盐碱地的改良与综合利用提供参考。

盐碱地肥沃耕层构建水肥盐综合调控机理与技术研究进展

盐碱地是我国重要的后备耕地资源,我国历来高度重视盐碱地的改良和利用工作,但目前盐碱区淡水资源短缺严重制约了盐碱地的改良利用。如何在水资源约束下,优化调控土壤水肥盐动态是当前盐碱地可持续利用中亟待解决的关键科学问题。近年来,大量研究利用有机培肥、耕作、节水灌溉、田间覆盖、咸水利用等农艺措施,在盐碱地建立“控盐、保肥、保水”的肥沃耕作层,显著改变了水肥盐在土壤-植物-大气连续体中的运移过程,实现了盐碱地质量和产能快速提升,上述内容也日益成为盐碱地改良利用中的重要研究方向。本文系统总结了盐碱地改良和肥沃耕层构建等方面的研究进展,并针对盐碱地肥沃耕层构建下土壤水肥盐综合调控及其与植物生长的协同关系等进行了展望,以期为盐碱地可持续改良利用提供参考。

暗管排水条件下有机无机肥配施对向日葵产量品质与盐碱土改良效果的影响

为揭示生物措施和工程措施协同改良盐碱土的效果,明确滨海农区向日葵生产适宜暗管埋设间距和有机-无机肥配施比例,研究设计10 m(S1)、15 m(S2)和20 m(S3)3种不同暗管间距和100%有机肥(100%OF)、75%有机肥+25%无机肥(75%OF)、50%有机肥+50%无机肥(50%OF)、25%有机肥+75%无机肥(25%OF)、100%无机肥(0%OF)和不施肥(CK)6种施肥处理,观测向日葵产量、品质、氮素利用和土壤速效养分、有机质、全盐含量的响应规律。结果表明:相同暗管间距下,25%OF施肥处理增产效应最为明显,而相同施肥处理下,S2间距向日葵产量处于较高水平,不同处理以S2条件下25%OF施肥处理向日葵产量最高,达到3.82 t/hm^(2);有机肥施用比例提升有利于增加向日葵籽粒粗脂肪、油酸和亚油酸含量;施肥处理明显增加了向日葵植株氮素吸收量,S1、S2和S3间距下较CK处理分别增加了18.1%~47.2%、8.6%~40.5%和8.8%~34.5%;向日葵氮素利用效率随有机肥比例的升高呈先增加后降低趋势,其中S2-25%OF和S1-25%OF处理处于较高水平,分别达到44.2%和43.9%;土壤速效氮、速效磷和速效钾含量与有机肥施用比例呈正相关,S1-S3间距下有机肥处理速效氮、速效磷和速效钾含量较CK平均高22.0%、2.4%和26.4%。暗管间距越小、有机肥施用比例越高,耕层土壤盐分消减率越高,S1间距下100%OF处理盐分消减率达42.6%。综合产量、品质、氮肥利用效率等因素,推荐以15 m暗管间距下25%有机肥施用比例作为盐碱地向日葵生产的最优方案。

宁夏盐碱地饲用小黑麦品种(系)生产性能及营养品质综合评价

【目的】筛选适合宁夏盐碱地种植的优质高产小黑麦(Triticosecale wittmack)品种(系)。【方法】2021年在宁夏石嘴山市惠农区开展晋饲草1号、冀饲草1号、鉴47、鉴46、优能、普瑞、冀饲3号、石大1号、中饲1048和甘农2号共10个品种(系)小黑麦的适应性研究,并利用主成分分析(PCA)对其农艺性状、生产性能及营养成分等指标进行综合评价。【结果】所有供试饲用小黑麦品种(系)均能在宁夏盐碱地安全越冬并完成生育期。晋饲草1号株高、分蘖数和干草产量最突出,分别达131.11 cm、4.40个和9.34 t/hm 2;冀饲3号和晋饲草1号粗蛋白含量较高,分别为9.95%和9.86%;冀饲3号的相对饲喂价值最高,为94.25。聚类分析结果表明,10个饲用小黑麦品种(系)可以分为3个类群,第Ⅰ类群为普瑞和优能,第Ⅱ类群为甘农2号、中饲1048和鉴47,第Ⅲ类群为晋饲草1号、冀饲3号、冀饲草1号、鉴46和石大1号。主成分分析结果显示,综合得分排名前三的小黑麦品种(系)为冀饲3号、晋饲草1号和石大1号。【结论】冀饲3号、晋饲草1号和石大1号均可在宁夏盐碱地大面积推广种植。

盐碱地花生棉花等幅间作对花生光合特性及产量效益的影响

为充分利用盐碱地土地及温光热资源,明确盐碱地花生/棉花等幅间作种植模式下,不同垄行位置对花生光合产物积累和光合特性的影响,提高盐碱地农业生产综合效益,在田间条件下,采用花生/棉花6∶4等幅间作周年轮作高效种植模式,研究花生带不同垄行位置对其光合产物积累、光照强度、叶绿素荧光特性等的影响及产量和效益的变化。结果表明:(1)盐碱地花生/棉花等幅间作种植模式较花生单作可显著增加花生主茎高、侧枝长、功能叶片非光化学荧光淬灭系数(NPQ),显著降低生物量、相对叶绿素含量(SPAD)、叶面积系数(LAI)、净光合速率(P_(n))、蒸腾速率(T_(r)),产量明显降低;间作棉花果枝数、单株铃数、铃重和产量均明显提高,间作系统综合经济效益显著提高。(2)间作系统中花生带两边垄行(IP1、IP3)、单作花生和单作棉花的冠层光照强度峰值均出现在12:00,但中间垄行(IP2)花生冠层辐射强度峰值滞后到14:00,且间作花生带两边垄行冠层光照度显著低于花生单作处理。(3)间作系统中,花生花针期后垄行位置对光合效率的影响显著,中间垄行SPAD、LAI和NPQ值均显著高于两边垄行,而两边垄行间无明显差异;但P_(n)、气孔导度(G_(s))和T_(r)受试点和垄行位置影响显著,其中东营市试点花生各生育期的各垄行位置间均无显著差异,而高唐县试点间作花生功能叶P_(n)、G_(s)和T_(r)均显著低于单作处理,且间作处理的IP2垄行显著高于IP1、IP3两边垄行。(4)两试点间作棉花和花生产量低于其单作处理,但综合效益较传统植棉收益分别提高11.94%(东营)和27.08%(高唐),间作系统土地当量比大于1.02。

黄河流域盐碱地资源与保护利用

黄河流域盐碱地分布广泛、盐分含量高,黄河上游盐渍区域主要分布在河套平原、黄土高原和鄂尔多斯高原,中游主要分布在银川平原及内蒙古自治区的后套和中滩三个冲积平原,下游主要分布在河南和山东沿黄灌区以及黄河三角洲的渤海滨海盐渍土,面积约为206.44×10^(4)hm^(2),造成了严重的土地退化和农业生产问题。本文旨在探讨黄河流域盐碱地资源的现状与保护利用策略,概述了黄河流域盐碱地资源的特点,包括面积分布、土壤盐分性质和形成原因;深入分析了流域上中下游及三角洲地区盐碱地的开发利用现状;提出了一套针对不同盐碱地类型的保护利用策略,为黄河流域盐碱地资源的可持续利用提供理论和技术支撑。

凋落物输入变化对黄河三角洲柽柳人工林土壤有机碳及其组分的影响

为探究凋落物输入变化对土壤有机碳库的影响,明确凋落物对森林生态系统土壤碳循环的作用,以黄河三角洲滨海盐碱地柽柳人工林为研究对象,通过设置添加凋落物(LA)、去除凋落物(LR)和对照(CK)3种处理方法,分析凋落物不同输入变化对土壤理化性质、土壤有机碳及其组分的影响。结果表明:凋落物添加和去除处理影响土壤理化性质的变化,与对照相比,添加凋落物降低了土壤密度和含盐量,增加了土壤含水量和养分(全氮、全磷、全钾),而去除凋落物则相反。3种处理对土壤有机碳(SOC)及其储量以及活性有机碳组分的影响一致,均表现为LA处理影响最大,LR处理影响最小,其中LA处理比CK增加了SOC质量分数及储量,但增加不显著;LR处理则显著降低了SOC质量分数及其储量,土层深度(d)0<d≤10 cm土层,LR处理比CK处理的SOC质量分数及其储量分别显著降低了34.93%、12.66%,10 cm<d≤20 cm土层,LR处理比CK处理的SOC质量分数及其储量分别显著降低了24.27%、16.13%。LA处理的土壤SOC及可溶性有机碳(DOC)、易氧化有机碳(EOC)、微生物量碳(MBC)质量分数均出现明显的表聚现象,而LR处理影响则不显著,且DOC和MBC则出现随土层深度增加而增大的趋势。土壤惰性有机碳(ROC)质量分数在不同土层间存在差异,0<d≤10 cm土层,各处理表现为LA>CK>LR,10 cm<d≤20 cm土层,各处理则表现为CK>LA>LR,而在CK和LR处理出现随土层增加而增加的趋势,偏于向土层下方积累。土壤密度(BD)与SOC及其各组分呈负相关,而土壤含水量(WC)、全氮、全磷与SOC及EOC、MBC、DOC质量分数呈极显著正相关(P<0.01)。因此,不同处理方式及不同土层深度的土壤密度、全氮质量分数和土壤含水量是影响SOC及组分变化的主要环境因子。

不同土地利用方式下银北盐碱地土壤的理化性质特征

以银北地区盐碱地为对象,研究了旱地、水田、灌木林和荒草地4种土地利用方式对0~20 cm和20~40 cm土层土壤容重、总孔隙度、有机碳含量、全氮含量、全磷含量、全钾含量、pH以及全盐含量的影响。结果表明,银北地区不同土地利用方式土壤理化性质差异显著(P<0.05)。旱地和水田土壤容重高于灌木林和荒草地,土壤总孔隙度则低于灌木林和荒草地。4种土地利用方式土壤有机碳和全量养分含量在0~20 cm和20~40 cm土层表现较为相似,有机碳和全氮含量表现为灌木林最高,旱地和水田次之,荒草地最低;旱地和水田土壤全磷含量显著高于灌木林和荒草地(P<0.05);全钾含量在旱地土壤中最高,水田最低。除旱地20~40 cm土层外,土壤pH和全盐含量均表现为荒草地显著高于其他3种土地利用方式(P<0.05)。加权灰色关联分析显示,0~20 cm和20~40 cm土层均表现为灌木林土壤理化性质关联度最大,旱地和水田次之,荒草地最小,说明灌木林对改良银北盐碱地土壤理化性质的效果最优。

土壤改良剂的应用现状

苏打盐碱土的改良是东北松嫩平原土壤治理的重要目标。综合前人的研究结果,归纳总结了改良剂的作用机理和改良效果,主要类型及应用,以及改良剂在实际使用中存在的问题,也展望了改良剂的应用前景,为今后改良剂的深入研究提供参考。改良剂可分为无机改良剂、有机改良剂、微生物菌剂,组合改良剂的使用效果好于单一改良剂,改良剂的应用对土壤理化性质、结构、养分含量以及微生态环境都有改善,并促进植物生长。提出针对北方旱田盐碱土的改良,新型有机改良剂以及配套改良技术的研发是今后研究的重点。

腐殖酸对盐碱地基质栽培番茄生长特性的影响

为提高盐碱地生产效能及农业废弃物利用率,将腐殖酸混掺到由酒糟、秸秆等农业废弃物拌制成的基质模块中,研究不同基质对盐碱地土壤盐分及“金棚8号B型”供试番茄生长特性的影响。选取轻度S1(Ec=1.15 mS/cm、pH值为8.63)、中度S2(Ec=3.67 mS/cm、pH值为9.13)、重度S3(Ec=6.39 mS/cm、pH值为9.69) 3种盐碱土,设置6组腐殖酸添加量T0(0)、T1(2‰)、T2(4‰)、T3(6‰)、T4(8‰)、T5(10‰),以基质中不添加腐殖酸的处理为对照组,构建TOPSIS多目标综合评价模型对番茄株高、茎粗、叶绿素相对含量(soil and plant analyzer development,SPAD)、根系特征、产量及品质进行综合评价,确定不同类型盐碱土最优基质配施模式。结果表明:从番茄苗期、花期、果实膨大期到成熟期,不同类型盐碱土土壤盐分均呈先增大后减小趋势;随着土层深度的增加,盐分呈先上升后下降趋势;同一深度,随着基质中腐殖酸添加量的增加土壤盐分呈下降趋势;与对照组相比,基质中均添加10‰腐殖酸处理的轻度、中度、重度盐碱土各土层平均盐分分别降低60.57%、13.14%、8.31%,对轻度盐碱地改良效果更好;基质中添加腐殖酸处理对番茄株高、茎粗、SPAD值、根系发育、产量与品质具有显著优势(P<0.05);基于TOPSIS多目标综合评价模型,得出在轻度、中度、重度盐碱土中分别添加4‰、6‰、8‰腐殖酸,番茄的综合指标贴近度最大,其综合评价最优。研究结果可为农业废弃物高效利用及盐碱地高品质果蔬的科学管理提供理论依据。

盐碱地水肥耦合对基质栽培番茄生长与产量品质的影响

为探究盐碱地水肥耦合对基质栽培番茄生长的影响,设置3组灌溉水平W1(268 mm),W2(201 mm),W3(161 mm)和3组施肥水平(N-P_(2)O_(2)-K_(2)O,kg/hm^(2))F1(260-200-220 kg/hm^(2)),F2(208-160-176 kg/hm^(2)),F3(156-120-132 kg/hm^(2)),共9组耦合处理,以无基质水肥组合作为对照组CK,基于温室大棚试验研究水肥耦合对盐碱地土壤盐分、基质栽培番茄株高茎粗、根系特征、产量与品质的影响,并构建遗传算法多目标优化模型确定盐碱地基质栽培番茄的最优水肥调控策略.结果表明:与CK相比,基质处理株高、茎粗、根系特征、水肥利用效率、产量与品质具有显著优势;基质处理土壤表层盐分含量较低,土壤剖面0~30 cm表现为积盐过程,30~60 cm表现为脱盐过程;通过AHP-CRITIC主客观组合赋权的VIKOR法对番茄产量、风味品质进行评价,处理W3F1的利益比率最小,产量与品质最佳;基于遗传算法多目标优化模型求解Pareto最优解,确定盐碱地基质栽培番茄的最佳水肥耦合策略为W3F2,研究可为盐碱地高品质果蔬的水肥科学管理提供理论依据.

关于江苏滨海盐碱地植物生态修复与固碳增汇协同增效的思考与建议

江苏盐碱地资源丰富,但是生态环境脆弱,利用其营建人工林,在修复生态环境的同时增加生态系统碳汇能力是实现生态文明建设和“双碳”目标的必然选择。综合分析了推动江苏滨海盐碱地植物生态修复与固碳增汇协同的现实背景,以及实现两者协同增效面临的问题,并从厘清滨海盐碱地植物资源底数、选育耐盐碱高固碳树种、完善生态系统服务功能评价体系和构建生态修复与固碳增汇协同专题数据库等4个方面提出了对策建议,旨在为江苏滨海地区生态修复及林业碳汇功能的最大化发挥提供技术支撑,加速“美丽江苏”建设与“碳中和”目标的实现。

盐碱地改造用高效阻盐材料的制备及其性能研究

为改良盐碱土壤,制备了一种隔水阻盐性能优异的超疏水颗粒材料,构建隔水阻盐材料与蓄水模式结合的盐碱地改造体系。以大漠砂为芯材,通过表面覆膜进行疏水改性,探究树脂和微纳米辅材掺量对材料疏水性、抗渗性和透气性的影响规律。利用微型土柱模拟地下水盐迁移过程,探究材料的隔水性能和阻盐性能。结果表明,在树脂、疏水碳酸钙和纳米二氧化硅掺量分别为1.0%、0.8%和0.2%时,材料接触角达到153.6°,耐静水高度达230 mm,并维持良好的透气性能。在微型土柱模拟试验中,隔水阻盐材料对水分蒸发和盐分上移的抑制作用明显,蒸发抑制率为50%~70%,盐分抑制率大于99%且在20次阻盐循环后维持97.5%以上。

海涂泥质盐碱地不同果桑品种生长适应性分析

研究海涂盐碱地不同品种果桑的生长适应性指标,为适用于浙江滨海盐碱地经济资源开发与利用提供参考。对温州海涂泥质盐碱地上种植的12个品种在成活率、果实农艺性状和土壤理化性质等指标上进行比较分析,确定各品种的相对耐盐力。不同果桑品种的成活率差异大,其中河北红、果选3号和72C002的成活率最高,超过80%,而琼46和金蔷63成活率偏低,低于30%;河北红、强桑3号和果选3号的生长表现和土壤脱盐能力一致,即成活率较高的树种,受盐害程度小。通过滨海盐碱地不同果桑品种的农艺指标及耐盐适应性指标的评价,适宜海涂围垦区种植的果桑品种为河北红、强桑3号和果选3号。