椰子水化学组成及其影响因素

椰子水是一种古老的热带饮料，以其天然、纯净、营养和功能特性受到越来越多的消费者的喜爱，并引起了众多饮料生产商的关注。椰子水主要是指来源于未成熟的椰子果腔内部的水状液体，汁清如水、入口清甜、晶莹透亮、清凉解渴。椰子水中的固形物含量比较低（2%~5%湿基），主要成分是糖和矿物元素，还有少量的蛋白质、氨基酸及其他微量成分，是一种营养丰富的天然运动和功能性饮料。椰子水的比例、总固形物含量、总糖、还原糖与总糖之比等指标是衡量椰子水质量的重要标准，可作为选育适合饮用椰子的指标。矮种椰子一般适合作为饮料用椰子品种。此外，椰子水还可作为植物组织培养和微生物发酵用基质。椰子水之所以用途广泛主要取决于其独一无二的化学组成，包括糖、维生素、矿物质和氨基酸等。本文主要综述至今文献报道相关椰子水化学组成及其影响因素方面的研究情况。     

Growth and yield responses of upland NERICAs to variable water management under field conditions

This study aimed to investigate the possible causes for inconsistent performances of upland New Rice for Africa (NERICA) varieties in uplands and lowlands, while identifying important determinants in grain yield under deficient soil moisture. We compared the growth and yield of NERICA 1 and NERICA 5 to those of Yumenohatamochi, a Japanese upland variety, and Hinohikari, a Japanese lowland variety, subjected to different water management regimes (continually flooded, supplementary irrigation, and non-irrigation). Under conditions of deficient soil moisture, panicle number per square meter, spikelet number per panicle, and 1000-grain weight of NERICAs decreased, whereas the panicle number of the Japanese varieties experienced little change. In contrast, the grain filling ratio was unaffected by water management, irrespective of variety. The primary source of yield reduction under low soil water conditions was a decrease in spikelet number per panicle, and water stress intensity was the primary factor for the degree of this reduction. Variation in the abortion of secondary rachis-branches caused differences between NERICAs in their spikelet number response to soil moisture deficiency. The inconsistency in NERICA performance across uplands vs. lowlands can be partially attributed to variation in yield response to low soil water conditions. Moreover, water stress intensity and the presence of a water gradient along the vertical soil profile may combine to affect the fluctuation in NERICA performance under upland conditions.     

保水缓释肥料保水性能及养分释放特性

为了明确添加水溶性保水剂(羧甲基纤维素钠、聚丙烯酰胺、聚丙烯酸钠)肥料的保水缓释效果,利用圆盘造粒工艺制备了保水缓释肥料,通过土壤培养和土柱淋溶试验,研究了保水缓释肥料在土壤中的保水性能和养分缓释效果。结果表明:3种保水缓释肥料均具有一定保水性和养分缓释效果,随保水缓释肥料用量增加,土壤最大持水率逐渐增加,土壤水分蒸发率逐渐减小;其中,以添加聚丙烯酸钠的保水缓释肥料保水性能和养分缓释效果最佳,首次淋溶后氮磷钾养分释放率较普通肥料分别减少了50.38%、55.74%、48.37%,当肥料添加量为2%时,土壤最大持水率较纯土壤提高了43.28%,培养至30 d土壤水分蒸发率较纯土壤降低了22.86%。     

Soil water response to precipitation in different microtopographies on the semi-arid Loess Plateau,China

Soil water is an important factor restricting afforestation on the semi-arid Loess Plateau.The microtopography of the loess slope has changed the distribution pattern of soil water on the slope.To improve water utilization efficiency and optimize afforestation configuration patterns,the relationship between soil water and precipitation at micro-topographic scale must be studied.We used time series analysis to study the temporal variation of soil water and its response to precipitation in four kinds of micro-topographies and undisturbed slope on loess slopes.Micro-topographies significantly influenced soil water distribution and dynamics on the slopes.Soil water stored in the platform,sinkhole,and ephemeral gully influenced subsequent soil water for 4 weeks,whereas soil water stored in the scarp and undisturbed slope could influence soil water for 2 weeks.It took 12 weeks,10 weeks,18 weeks,6 weeks,and 12 weeks for precipitation to reach the deeper soil layer in the platform,sinkhole,scarp,ephemeral gully,and undisturbed slope,respectively.These soil water characteristics in different micro-topographies are vital factors that should be taken into consideration when undertaking afforestation on the Loess Plateau.     

水分优化对温室葡萄产量及土壤生物学特性的影响

为揭示滴灌不同水分调控下设施栽培葡萄产量与土壤学特性等相关指标的响应关系,在甘肃省永登县设施葡萄试验基地开展葡萄滴灌不同生育期水分调控田间灌溉试验,分析水分调控对设施栽培葡萄土壤积温、蔗糖酶和淀粉酶活性、有机碳(TOC)、微生物量碳(MBC)和微生物熵(qMB)等土壤学特性的影响,基于隶属函数综合分析明确影响葡萄产量及各项土壤生物学特性指标的最佳水分优化处理。结果表明:新梢期水分胁迫的土壤积温、土壤酶、TOC、MBC、qMB均显著(P <0. 05)高于对照;新梢期水分胁迫较对照可增产44. 6%;果实膨大期作为葡萄生长的关键阶段,此时水分胁迫对土壤淀粉酶影响不显著,但对其他土壤学特性指标具有一定的抑制作用,并且可减产9.7%;隶属函数综合分析表明,土壤生物学特性指标及产量综合隶属排名为:PS﹥FS﹥CS﹥CK﹥ES。     

浑善达克沙地杨树水分利用特征

为探究浑善达克沙地杨树的水分利用特征。本文利用氢和氧同位素示踪技术,测定了降雨、土壤水与地下水的δ18O值,利用多元线性混合模型定量计算了杨树对不同土层土壤水分的利用比例。结果表明:①浑善达克沙地大气降雨方程线为:δDLWML=7.84δ^18OLWML+9.12,斜率比全国降雨方程偏小,体现了研究区降雨少,蒸发大的气候特征;②土壤含水量与地下水位埋深、降雨量、植物生长期的变化有着显著的相关关系。降雨量较大与地下水位埋深较浅的时期,土壤含水量明显增大,在植物生长前期和中期,土壤含水量明显较低;③杨树在雨季,利用了大量的浅层土壤水(0~40 cm),在较为干旱的旱季,利用了大量的深层土壤(160~200 cm)水与少量的地下水。     

幼龄期压砂地枸杞产量和品质多指标耦合灌溉制度优化

为提高宁夏中部干旱带幼龄期压砂地枸杞灌水效率,保障枸杞产量和品质,进行了3水平灌水定额(300、225 m~3·hm~(-2)和150 m~3·hm~(-2))的田间对比试验,采用综合指标增量最优方法对灌溉制度进行了优化。研究发现:枸杞5月上旬萌芽期耗水以土壤蒸发为主,日耗水量0.6～1.2 mm,6月中旬进入夏果花期耗水量增大,日耗水量2.5～3.7 mm,7月中旬枸杞夏果期耗水量继续增大,达2.4～4.3 mm,7月下旬日耗水量最大,为3.2～4.7 mm,8月中旬耗水量下降,日耗水量3.0～4.2 mm。灌水定额对枸杞产量影响显著(P0.05),灌水定额300 m~3·hm~(-2)时产量最高,为1 402.65 kg·hm~(-2);灌水定额225 m~3·hm~(-2)时枸杞多糖、β-胡萝卜素和黄酮较高,含量分别为4.56%、0.15%和0.41%;灌水定额150 m~3·hm~(-2)时枸杞甜菜碱含量较高,为0.77%。进一步通过综合指标增量最优方法进行优化,结果表明β-胡萝卜素含量最高时得到综合指标增量最大,为-5.4%,总耗水量为450 mm。枸杞夏果花期进入需水关键期,阶段耗水量达70 mm以上,进入6月中旬枸杞需水量增大,旬耗水量达29 mm以上。可见,幼龄期压砂地枸杞产量及品质指标均达到最优的耗水量较难获得,但是在β-胡萝卜素含量最高时可以获得产量和品质多指标耦合的最优耗水量,据此进行灌溉制度优化,可以一定程度上实现幼龄期压砂地枸杞优质高产。     

基于主成分分析和Copula函数的灌溉水利用系数影响因素研究

以新疆生产建设兵团第十二师中型灌区为研究对象，采用首尾法测算2018年和2019年4个样点灌区的灌溉水利用系数，在采用主成分分析法对指标体系降维处理的基础上，用Copula函数构建PCA-Copula评价分析方法，对灌溉水利用系数各影响因素的影响程度和影响规律进行计算分析。结果表明：两年测算数据表明，4个样点灌区灌溉水利用系数都在0.63以上，且最大值达到0.668，分别高于同期全疆、全国平均水平5.05%、10.15%；主成分分析得出，渠道衬砌率（0.944）、滴灌灌溉面积比（0.746）、作物需水量（0.635）、实际灌溉面积（0.734）等都具有超过60%的正贡献率，而葡萄种植比（-0.586）和灌区毛灌溉用水量（-0.645）等具有超过58%的负贡献率。利用PCA-Copula分析评估方法得出，作物种植比例和节水灌溉工程状况对十二师中型灌区灌溉水有效利用系数影响显著（P<0.05），其中葡萄净灌溉定额和灌区毛灌溉用水量对灌溉水有效利用系数的影响极其显著（P<0.01），相关系数分别为0.875、0.742，同时利用Spearman等级相关系数检验法和线型回归来检验PCA-Copula评价法与熵值法的密切程度，检验结果其相关系数分别为 0.87（P＜0.05）和0. 52（P＜0.001），表明PCA-Copula评价方法适用于研究灌溉水利用系数影响因素。     

Cultivation effects on soil texture and fertility in an arid desert region of northwestern China

In arid desert regions of northwestern China, reclamation and subsequent irrigated cultivation have become effective ways to prevent desertification, expand arable croplands, and develop sustainable agricultural production. Improvement in soil texture and fertility is crucial to high soil quality and stable crop yield. However, knowledge on the long-term effects of the conversion of desert lands into arable croplands is very limited. To address this problem, we conducted this study in an arid desert region of northwestern China to understand the changes in soil physical-chemical properties after 0, 2, 5, 10, 17, and 24 years of cultivation. Our results showed that silt and clay contents at the 17-year-old sites increased 17.5 and 152.3 folds, respectively, compared with that at the 0-year-old sites. The soil aggregate size fraction and its stability exhibited an exponential growth trend with increasing cultivation ages, but no significant change was found for the proportion of soil macroaggregates (>5.00 mm) during the 17 years of cultivation. The soil organic carbon (SOC) content at the 24-year-old sites was 6.86 g/kg and increased 8.8 folds compared with that at the 0-year-old sites. The total (or available) nitrogen, phosphorus, and potassium contents showed significant increasing trends and reached higher values after 17 (or 24) years of cultivation. Changes in soil physical-chemical properties successively experienced slow, rapid, and stable development stages, but some key properties (such as soil aggregate stability and SOC) were still too low to meet the sustainable agricultural production. The results of this long-term study indicated that reasonable agricultural management, such as expanding no-tillage land area, returning straw to the fields, applying organic fertilizer, reducing chemical fertilizer application, and carrying out soil testing for formula fertilization, is urgently needed in arid desert regions.     

减氮控水对日光温室番茄-小型西瓜产量、品质及氮素利用的影响

研究日光温室滴灌施肥条件下,不同水肥组合对作物产量、品质和氮素利用的影响,综合评价优化水肥和常规水肥管理的调控效应。田间试验设置4个水氮处理,包括不施氮+常规灌溉(N_0+FI)、常规施氮+常规灌溉(FT+FI)、优化施氮+常规灌溉(OPT+FI)、优化施氮+优化灌溉(OPT+OI)。测定不同处理下秋冬茬番茄-春茬小型西瓜的产量、品质以及根、茎、叶、果实氮素吸收量。结果表明:优化水氮处理(OPT+OI)番茄产量和果实可溶性糖、可滴定酸和Vc含量与农户常规水氮处理(FT+FI)无显著差异,但番茄果实的硝酸盐含量降低了66.3%(P0.05);灌溉量相同时,减氮40%处理(OPT+FI)的小型西瓜产量相比常规施氮处理(FT+FI)提高了13.1%;OPT+OI处理果实的可溶性糖、可滴定酸和Vc含量较对照处理(N_0+FI)均显著提高。不同水肥处理下,两季作物氮在各器官的累积量均表现为果实叶茎根。随着番茄的生长,果实和茎的氮素携出量占总携出量的比例分别由62.4%和5.9%增加至67.1%和6.3%,而根和叶中氮素携出量降低,OPT+OI处理果实氮素携出所占比例增量最大,促进了营养器官中的氮素向果实中转运。在当前日光温室栽培条件下,适当优化施氮量和灌溉量既可以保证作物产量和氮素吸收,同时提高果实的品质。