硒、钴对苜蓿青干草营养水平影响的研究

通过在苜蓿草地上基施硒、钴物料的田间试验,研究苜蓿对硒钴的吸收、积累和转化特点,以及各种物料对苜蓿青干草中营养成分和微量元素含量的影响。结果表明: （1）硒或钴物料均能提高苜蓿青干草中硒的含量,物料中硒含量越高,青干草中硒的含量也越高。钴能显著提高苜蓿青干草中的钴含量,过量施钴会造成钴料的浪费。虽然硒对草中钴积累量影响不大,但硒钴混合物料可显著提高牧草钴的积累量,物料中硒含量越高草中钴的积累量越多。（2）硒钴的合理混施能显著提高苜蓿对硒、钴的利用率以及物料中无机硒向牧草中有机硒的转化率,提高牧草中硒的有效性和安全性。（3）在所有硒、钴物料中,高硒低钴能提高苜蓿青干草的粗蛋白和粗脂肪含量,对粗纤维和无氮浸出物影响不大。而其他硒、钴物料均能显著提高苜蓿干草中的粗纤维含量,降低粗脂肪含量,对粗蛋白和无氮浸出物含量影响不大。（4）硒钴混合物料能显著提高苜蓿青干草中Mo、Cu、B、Fe、Mn、Zn 6种元素的含量,其中Mo的提高幅度最大为142.34 %～256.45 %, 其次为Fe、Mn和Zn,提高幅度分别为48.16 %～59.45 %、32.88 %～41.66 %和37.10 %～96.39 %。Cu和B的提高幅度最小,分别为13.43 %～37.33 %和14.60 %～39.67 %。     

硒对镉胁迫下寒地水稻Cd、Zn、Fe、Cu、Mn含量的影响

研究了镉胁迫下施硒后水稻各器官Cd、Zn、Fe、Cu、Mn含量的变化,并探讨了施硒对缓解镉胁迫下水稻养分吸收的可行性。采用人工模拟镉胁迫的盆栽试验方法,研究不同镉浓度(0,2,4,8mg/kg土壤)下,施硒(0,0.07,0.14mg/kg土壤)对水稻不同器官Cd、Zn、Fe、Cu、Mn含量的影响。结果表明:(1)随着土壤镉浓度的增加,水稻各器官镉含量均增加,不同器官镉含量表现为根系茎鞘叶片精米。(2)相同镉浓度下,随着硒浓度的增加,各器官中镉含量下降,Se2(0.14 mg/kg)优于Se1(0.07 mg/kg)处理。Cd1(2mg/kg)浓度时,Se2处理精米镉含量比Se0降低31.5%(P0.01)。(3)镉胁迫下,施硒对水稻各器官中Zn、Fe、Cu、Mn含量影响不同。相同镉浓度下,随着硒浓度的增加,叶片Zn含量下降,Fe含量增加;茎鞘Zn、Fe含量下降,而Cu含量增加;根系Zn、Cu含量下降,而Fe、Mn含量增加;精米Zn、Mn、Cu、Fe含量增加。其中Cd2(4mg/kg)浓度时,与Se0处理相比,Se2处理茎鞘Zn含量降低了36.2%;叶片和根系Fe含量增加了15.4%和11.4%;精米Zn、Mn、Cu、Fe显著含量增加,分别增加了43.3%,15.8%,52.6%,20.5%(P0.01)。施硒能显著降低镉胁迫下寒地水稻镉含量,Cd1浓度下,施硒后精米镉含量下降幅度最大;镉胁迫下施硒影响水稻对Zn、Fe、Cu、Mn的吸收,尤其Cd2浓度下,施硒对精米Zn、Mn、Cu、Fe含量影响较大,Se2处理效果最佳。     

外源硒矿粉对玉米硒累积及矿质元素吸收的影响

【目的】通过生物强化的方法获得生物安全形态的有机硒,是实现人体科学补硒的重要途径。研究外源硒矿粉在生产中的合理施用量及其对作物的影响,可为富硒农产品生产提供理论与技术指导。【方法】以玉米为试材,以湖北恩施的富硒矿粉(总硒含量为180 mg/kg)为硒源进行田间试验,研究了玉米对外源硒的吸收与转化及施硒对玉米矿质元素吸收的影响。设5个施硒处理: Se 0 (CK)、 750 (Se1)、 1500 (Se2)、 2250 (Se3) 和3000 g/hm2 (Se4)。于玉米大喇叭口期和成熟期取样,测定玉米不同部位总硒含量以及玉米籽粒中总硒、 有机硒及矿质元素含量。【结果】土壤施用富硒矿粉对玉米籽粒产量和总生物量没有显著影响,但可显著增加玉米籽粒及各器官硒含量。随硒施用量由0增加到3000 g/hm2,玉米籽粒中硒含量由14.2 μg/kg 增加到350.3 μg/kg。除Se2处理外,玉米根系中的硒含量在收获期高于抽穗期,而玉米茎和叶中的硒含量在收获期低于抽穗期。玉米不同器官对硒的富集能力依次为根叶籽粒茎,而玉米对硒的转移系数大小顺序亦为叶籽粒茎。与对照相比,施硒使玉米籽粒中有机硒含量显著增加,不同施硒处理玉米籽粒中有机硒含量范围为12.9~302.6 μg/kg,随土壤施硒量增加,有机硒占总硒的比例从86.87%增加到90.84%,不同处理之间有机硒所占比例差异不显著。玉米籽粒总硒、 有机硒与各器官硒含量之间均表现出显著的相关性,其中籽粒中有机硒与不同生育期根中硒含量达到极显著相关水平。施硒可显著抑制玉米籽粒对Na的吸收,对K、 Ca、 Mg、 Fe 的吸收无显著影响,一定的施硒水平下,可促进玉米籽粒对Mn、 Cu、 Zn的吸收。【结论】施用外源硒矿粉对玉米生物量与籽粒产量无显著影响。随施硒量增加,玉米籽粒中总硒含量和有机硒含量与对照相比显著增加,但对玉米籽粒中的有机硒与总硒的比例没有显著影响。一定施硒水平下,可促进玉米籽粒对Mn、 Cu、 Zn的吸收。以纯硒施用量为750~1500 g/hm2作为硒矿粉在富硒玉米生产中的推荐施硒量。     

土壤施硒对茶树叶片硒及矿质元素含量的影响

以茶树为试材,亚硒酸钠和硒酸钠为硒源,采用土壤沟施的方式,进行田间试验,研究茶树叶片总硒、有机硒及K、Ca、Mg、Zn、Fe含量变化规律。结果表明,土壤施硒可显著提高叶片总硒和有机硒含量,叶片总硒含量随着施肥浓度增加显著升高,随着采样时间延长,先升高后降低,在施肥后5个月达到最大值。茶树对Se(VI)的吸收和转运能力远高于Se(IV),硒酸钠处理叶片总硒含量是亚硒酸钠处理的10.4~25.3倍。茶树吸收无机硒后大部分都转化为较为安全的有机硒,有机硒占总硒比例为91.6%~96.2%。土施不同浓度硒肥,叶片K、Ca、Mg、Zn、Fe含量呈现出波动式升降变化的特点,施硒显著提高嫩叶Zn含量,并显著降低老叶Ca、Fe含量,对叶片K、Mg含量无显著影响。     

土壤施硒酸钠对盐碱地油用向日葵产量及营养品质的影响

通过大田试验研究了土施不同浓度硒对盐碱地油用向日葵产量及营养品质的影响，为当地盐碱地的综合开发利用及富硒功能农产品的生产提供参考依据。油葵籽仁中全氮含量采用凯氏定氮仪测定，其他矿质元素含量采用原子吸收分光光度计测定，籽仁脂肪酸含量采用气相色谱法测定。结果表明: 土施适宜浓度硒肥(300 g/ha)有利于提高油用向日葵产量，而过低(100～200 g/ha)或过高浓度硒肥(400 g/ha)均降低了油用向日葵产量；土施100～200 g/ha硒，提高了K、S、Fe、Zn、Mn、Cu、Se、油酸和亚油酸含量，降低籽仁Cr、Cd、Pb含量；土施硒300 g/ha左右有利于降低籽仁棕榈酸和硬脂酸含量。综合考虑油葵产量和各营养指标的变化情况，在盐碱地生产富硒油用向日葵的最适宜的土施硒的浓度为200～300 g/ha左右?     

施用硒肥对鸡毛菜产量、品质及生理特性的影响

在施不同量的硒肥田间处理下,研究鸡毛菜对土壤中硒的吸收对鸡毛菜产量、品质及生理特性等的影响。结果表明,土壤施硒肥可明显提高鸡毛菜中总硒含量,随施硒量的增加,总硒在次高处理浓度(112.725g/hm2)呈最高,在浓度74.925g/hm2时Se含量增加最快,是鸡毛菜硒积累的最大效率浓度。施Se鸡毛菜产量较对照降低,但未达显著水平。鸡毛菜的Vc含量随着硒浓度的增加,各组均增加,以112.725g/hm2到达顶峰;蛋白质含量除149.85g/hm2有小幅度增加外,其余处理组含量都低于对照,但差异不显著;可溶性糖含量的各处理组水平均低于对照,以149.85g/hm2组含量最低;元素Ca、Mg、Fe、K、Zn、Mn在低硒浓度下有不同程度提高,在高硒浓度时均有所降低。生理特性方面,施硒浓度的增加,鸡毛菜内的MDA含量也逐渐上升,当浓度高于112.725g/hm2,增强幅度加大;SOD活性在37.125,74.925g/hm2时活性略低于对照,当浓度在高于112.725g/hm2时,SOD活性上升幅度较大;低硒浓度,POD酶活性有所降低,而在112.725g/hm2时,酶活性上升,而在最高浓度时又急剧下降;CAT酶的活性在各硒浓度的处理下相对于对照都受到了不同程度的抑制,CAT酶活性对硒具有浓度依赖性。土壤硒浓度上升,显著提高了硝酸还原酶活力,而降低了鸡毛菜体内的硝酸盐含量,两者之间存在极显著负相关。综合分析硒对鸡毛菜含硒量、产量、各品质因素及食用的安全性,施硒量以不超过37.125g/hm2为宜。     

叶面喷施锌硒肥对谷子抗氧化酶活性及籽粒锌硒含量的影响

  【目的】   研究叶面喷施锌、硒肥对谷子叶片抗氧化酶活性以及锌、硒在籽粒积累的影响，为谷子生产中合理施用锌、硒肥以及开发富锌富硒谷子提供参考。   【方法】   在2016—2017年，以冀谷21为试材进行田间小区试验。分别设3个锌水平 (0、2.25、4.50 kg/hm2) 和3个硒水平 (0、30、60 g/hm2)，共组成7个处理分别为对照 (Zn0Se0)、单施低硒 (Zn0Se1)、单施低锌 (Zn1Se0)、低锌低硒 (Zn1Se1)、低锌高硒 (Zn1Se2)、高锌低硒 (Zn2Se1)、高锌高硒 (Zn2Se2)，随机区组排列。分析了谷子叶片中超氧化物歧化酶 (SOD)、过氧化物酶 (POD)、谷胱甘肽过氧化物酶 (GSH-Px) 的活性，籽粒锌硒含量以及谷子产量。   【结果】   喷施锌、硒对叶片SOD、POD和GSH-Px活性影响达到显著或极显著水平。在低锌 (2.25 kg/hm2) 水平下，随着硒肥施用量的提高，SOD与GSH-Px活性均呈现出先升后降的趋势，且在低锌低硒配合处理下酶活性均达到最高。在低硒 (30 g/hm2) 水平下，随着锌肥施用量增加，SOD与GSH-Px活性先升后降。高锌高硒配合不利于叶片抗氧化酶活性的提高。喷施锌、硒对籽粒锌、硒的吸收影响极显著。单施锌、单施硒可显著提高籽粒Zn、Se含量。低Zn水平下，配施低Se提高了籽粒Zn含量，配施高Se则降低Zn含量。低Se水平下，配施Zn可提高籽粒的Se含量，而高Se水平下，提高Zn水平对籽粒Se含量没有显著影响。低锌低硒 (Zn 2.25 kg/hm2、Se 30 g/hm2) 对产量提高效果最好。   【结论】   叶面喷施Zn和Se可以显著提高叶片中的抗氧化酶活性，但是同时喷施Zn和Se，需注意喷施浓度。喷施低锌低硒 (Zn 2.25 kg/hm2、Se 30 g/hm2) 有利于提高谷子叶片抗氧化酶活性、籽粒锌硒含量与产量，Se和Zn有一定的协同效应。喷施高量Zn对Se的吸收没有显著的副作用，但是高锌时再喷施高Se则抑制籽粒Zn的吸收。     

硒、钴单施和配施对苜蓿生长及产量的效应研究

为探讨硒、钴在提高苜蓿生长影响,在河南省沿黄滩区,开展了硒、钴单施和配施下对紫花苜蓿生长以及产量和品质影响研究。结果表明,硒、钴单施和配合基施均能够显著提高苜蓿从现蕾到开花期的净光合能力,降低呼吸消耗,提高单位叶面积干物质的生产速率,有利于苜蓿花前青干草生产和果实发育;其中,以硒570 g/hm2、钴762g/hm2配施下效果显著,青干草增产8.06%,种子千粒重可提高12.85%。单施钴和硒钴配施还能促进0—20 cm耕层苜蓿根瘤菌的生长和积累,增强苜蓿的固氮能力。说明硒钴合理基施对苜蓿青干草和优质种子生产具有很好的应用效果。     

施纳米硒对小麦籽粒硒含量及其品质性状的影响

【目的】研究基施纳米硒肥对不同小麦品种籽粒百粒重、硒含量、硒形态,其他矿质元素以及面粉糊化特性的影响,为利用纳米硒肥进行小麦硒生物强化提供参考。 【方法】选择 110 份小麦品种 (系),在扬州大学农学院网室种植,采用的施肥方式为基施纳米硒肥,设每千克土施 Se 0 (CK)、100 (Se100)、150 (Se150) mg 2 次重复,随机区组设计。小麦成熟期收获籽粒,测定百粒重。利用离子发射光谱 – 原子吸收仪测定了籽粒 Se、Ca、Mg、Cu、Fe、Mn、Zn 及 S 含量。选择高硒处理中硒含量前 10 名的品种,利用 LC-UV-AFS 测定了籽粒中不同形态硒的含量。随机挑选 59 个品种并利用 RVA 仪 (快速粘度分析仪) 测定其面粉糊化特性的特征值。利用 MATLAB 和 SPSS 软件进行数据分析。 【结果】基施硒 0、100、150 mg/kg 土,小麦籽粒的百粒重均值分别为 3.78、4.11 和 3.70 g,籽粒中总硒含量分别为 2.00、12.46 和 17.35 mg/kg。籽粒中的硒主要以有机态形式存在,以硒蛋氨酸含量最多,其次是硒甲基化半胱氨酸和少量的硒半胱氨酸,无机态硒仅微量存在于极少数品种中。基施硒肥对测定的矿质元素的吸收积累既有协同也有拮抗作用,对小麦面粉的糊化特性没有显著影响。糊化特性取决于基因型,不同品种间存在极显著差异。 【结论】硒肥可以提高小麦籽粒中的硒含量,但增幅因品种而异;硒强化后籽粒中硒主要以有机态形式存在;低浓度硒处理可以提高小麦籽粒的百粒重,且不会影响小麦的面粉糊化特性。     

硒对苦荞硒、总黄酮和芦丁含量、分布与累积的影响

采用盆栽试验探讨土壤施硒对苦荞硒、总黄酮和芦丁含量、分布与累积的影响。结果看出,在土壤施硒0.5～2.0 mg/kg范围,苦荞根在苗期（40 d）大量吸收并累积硒,全生育期各器官硒含量极显著提高;在生长中后期(60～80 d) 硒的累积最快,累积量最多。硒在苦荞各器官中的分布为:在40 d时,根＞叶＞茎;60 d时Se0.0处理为叶＞根＞花＞茎,施硒各处理则为花＞根＞叶＞茎;80 d时Se0.0处理以花＞根＞叶＞茎＞子粒,Se0.5处理以花＞叶＞子粒＞茎＞根,施硒≥1.0 mg/kg的处理则为花＞叶＞茎＞根＞子粒。土壤施硒≤1.0 mg/kg促进苦荞生长,提高地上部各器官干重和植株总干重以及各器官总黄酮和芦丁含量与累积量,不改变总黄酮和芦丁的器官分布,增加苦荞中后期对总黄酮的累积;以Se0.5处理效应最佳,各差异达显著水平。过量的硒（Se1.5～2.0 mg/kg）显著抑制苦荞生长,降低各器官干重、总黄酮和芦丁含量与累积,不利于硒在子粒中富集和总黄酮在子粒中分布。表明在低硒土壤上栽培苦荞,土壤施硒以不超过1.0 mg/kg为宜,既能最大限度的提高苦荞各器官硒、总黄酮和芦丁含量和累积量,又可降低施用硒肥的成本和减少硒肥对环境的影响。     

Mineral Concentrations of Cool Season Pasture Forages in North Florida During the Winter-Spring Grazing Season: II. Trace Minerals

Trace mineral concentrations of annual cool season pasture forages grazed by growing beef cattle during late fall-winter-spring grazing season were evaluated during two experimental cool season grazing studies, each lasting two years at the North Florida Research and Education Center (NFREC), Marianna, Florida. Eight 1.32 ha fenced pastures or paddocks were divided into two groups of pasture land preparation/planting methods, four pastures for the sod seeding treatments (SS) and four for the prepared seedbed treatments (PS). Two different pasture forages, small grains, (rye/oats mix) with or without ryegrass for the first two years (Study 1); and oats with ryegrass or ryegrass only for the last two years (Study 2) were planted in these pasture lands. Each of the four forage, type, and cultivation combination treatments was assigned to two pastures each year, thereby giving two replicates per pasture treatment per year. Forage samples were collected at the start of pasture grazing and twice monthly thereafter until the end of grazing season, pooled by month, and analyzed for copper (Cu), iron (Fe), zinc (Zn), manganese (Mn), cobalt (Co), molybdenum (Mo), and selenium (Se). Liver biopsies and blood plasma samples were collected from the tester cattle only during the spring of year two of Study 2. Liver was analyzed for Cu, Fe, Mn, Co, Mo, and Se and plasma for Cu, Fe, Zn, and Se. Forage trace mineral concentrations were found to differ by month in Cu (P < 0.01), Fe and Zn (P < 0.0001) in both studies, and with Mn (P < 0.0001) in Study 2 only. Pasture forage type effects on Cu (P < 0.05), Fe and Zn (P < 0.01), and Se (P < 0.05) and forage type by month interactions on Cu and Mn (P < 0.0001), and Zn (P < 0.05) were observed in Study 2. Forage concentrations of Cu, Zn, Mn, and Mo in Study 1 and Mn, Mo, and Se in Study 2 were affected (P < 0.05) by pasture land preparation/planting methods in that these minerals were found to be lower from forages of sod-seeded treatments than from those of prepared seedbed treatments. Forage Cu concentrations were lower than the minimum requirements (10 ppm, DM) for beef cattle among months in both studies. Oats-ryegrass pastures of Study 2 had surprisingly low Fe concentrations (P < 0.01) in all months of the winter-spring grazing season. Cobalt, Mn, Mo, and Se did not vary much month to month during the winter-spring grazing months. All mean forage Se concentrations were lower than the requirements (0.10 ppm, DM) for grazing beef cattle. There were no differences (P > 0.05) in mean Se values between the two studies. Liver Cu, Fe, Co, and Se concentrations were sufficient to indicate adequate status of these minerals in tester animals from both forage types. Liver concentrations of Mn and Mo were slightly low, indicating a low status or these minerals. Plasma concentrations of Cu, Fe, Se, and Zn were all above the recommended concentrations for beef cattle. In conclusion, trace minerals deficient in North Florida during the cool season were Cu, Co, and Se, and a special consideration should be given to include adequate amounts while supplementing the mineral mixtures to growing beef cattle since forage samples reflected deficient concentrations of these minerals.     

Monthly variation of forage and soil minerals in central Florida II. trace minerals

Abstract

A two‐year study was conducted to determine the trace mineral status of cattle grazing forages (bahiagrass) and soils on a ranch in central Florida. Forage and soil samples were collected every month for two years. Month effect (P < 0.05) on soil trace mineral concentrations were observed in manganese (Mn) and zinc (Zn) in years 1 and 2, and in copper (Cu) and iron (Fe) only in year 2. All soil trace minerals studied showed higher (P < 0.05) concentrations in year 2. Month differences (P < 0.05) in forage trace mineral concentrations were found in cobalt (Co), Cu, Fe, Mn, molybdenum (Mo), selenium (Se), and Zn. The majority of forage trace minerals were higher in spring‐summer months. Year means were similar (P > 0.05) in forage trace mineral concentrations. Few and low correlation coefficients were observed between and within soil and forage trace minerals concentrations. Percentages of total forage collected with trace minerals below critical values (in parentheses) and suggestive of deficiency were as follows: in forage, Co (0.1 ppm), 93%; Cu (8 ppm), 98%; Fe (50 ppm), 75%; Mn (40 ppm), 41%; Mo (> 6 ppm), 0%; Se (0.2 ppm), 98%; and Zn (25 ppm), 84%; in soil, Cu (0.3 ppm), 77%; Fe (2.5 ppm), 7%; Mn (5 ppm), 91%; and Zn (1.5 ppm), 53%.     

Effects of pasture‐applied biosolids on forage and soil concentrations over a grazing season in north Florida. II. microminerals

Abstract

The experiment rationale was to determine forage micromineral concentrations as effected by biosolids fertilization. We determined the effects of two exceptional quality biosolids on bahiagrass trace mineral concentrations as related to beef cattle requirements. Twenty‐five 0.8‐ha pastures were divided into five blocks. Two biosolids were applied as normal and double agronomic rates. The control received NH₄NO₃. Forages were analyzed for total copper (Cu), iron (Fe), manganese (Mn), zinc (Zn), molybdenum (Mo), cobalt (Co), and selenium (Se), and soils were analyzed for Mehlich I extractable Cu, Mn, and Zn. Some significant increases (P<0.05) in forage Co, Cu, Fe, Zn, and Se were observed at various sampling times, but the increases were generally small and biologically insignificant. Although forage Mo samples from pastures with the Tampa biosolids applied were consistently higher than the control (P<0.05), at no time did they approach levels considered toxic. Similar results were seen in forage Mn concentrations, with treatment Baltimore‐2X elevating (P<0.05) Mn concentrations as well. Deficiencies of Co, Cu, Zn, and Se are common in this Florida region and slight elevations due to biosolids treatment could be beneficial. Biosolids applied at the highest rates improved soil Cu and Zn concentrations above control soils and soil Mn was increased over the control at both sampling times for Baltimore‐2X. In relation to beef cattle requirements, the majority of forages were deficient in Co, Cu, Se, and Zn. In summary, biosolids fertilization slightly improved the micromineral status of forage and soil, without creating toxicity.     

Mineral concentrations of forages grazed by small ruminants in the wet season in benue state,Nigeria. II. Trace minerals and forage crude protein

Abstract

A total of 71 forage samples were analyzed for trace mineral and crude protein concentrations in three Agricultural zones of Benue State, Nigeria. The zones consisted of the Northern, Eastern, and Central zones, each of which was made up of four Local Government Areas. In each Local Government Area, grazing animals were followed and forages corresponding to those consumed were collected during the peak of the wet season (June) and analyzed for the nutrient composition. Deficiencies were observed in copper (Cu) and cobalt (Co) concentrations in all classes of forage, and in forage Cu and zinc (Zn) in all Local Government Areas in the Northern zone. A higher (P<0.05) forage Cu concentration was observed in legumes compared to other classes of forage in the Eastern zone. Concentrations of iron (Fe) and manganese (Mn) were considered adequate and their contents were not affected (P>0.05) by class of forage or Local Government Areas. In the Eastern zone, the contents of selenium (Se) in grass and tree leaf hay were higher compared to leguminous forage, which in turn was higher compared to Se concentrations in crop wastes. Only about 18% of total forage samples showed protein concentrations below the critical value of 7%. Supplementation of Cu, Zn, and Co would seem to be necessary in the Northern zone, and to a lesser extent in the Eastern zone for optimum productivity of grazing animals.     

Forage Mineral Concentrations and Mineral Status of Beef Cattle Grazing Cool Season Pastures in Northwestern Florida,Emphasizing Magnesium

A 68‐day study was conducted in North Florida to evaluate forage and beef cattle serum, liver, and urine mineral concentrations, emphasizing magnesium (Mg). Forty‐two Angus, Brangus, and Romosinuano cows in early lactation were divided into two groups and placed on ryegrass or oat pasture. Samples were collected every 2 weeks except for liver biopsies, which were collected only on day 68. Mineral concentrations were determined for forage, plasma, urine, and liver samples. All forage mineral concentrations except Mg, calcium (Ca), copper (Cu), cobalt (Co), selenium (Se), and zinc (Zn) were greater than critical levels for a beef cow in lactation. Forage Mg and Cu were severely deficient in both oats and ryegrass. All blood plasma mineral levels were greater than critical levels, but plasma Mg was borderline to slightly deficient. There should be special attention given to Mg supplementation because forages are deficient and contain excess potassium (K).     

施用硒、锌、铁对玉米和大豆产量与营养

采用黄土高原低硒区典型土壤,以玉米、大豆为供试作物,研究施用硒、锌、铁对作物产量和营养品质的影响。结果表明,仅施用氮、磷、钾肥料,玉米、大豆产量无明显变化,施用适量硒、锌、铁时,玉米产量明显提高15.6%～73.8%,大豆产量提高58.9%～115.1%。施用硒、锌、铁,玉米籽粒氮含量明显增加,而磷、钾含量无明显变化,大豆籽粒氮含量无明显变化,磷、钾含量有所下降。土施或结合叶面喷施硒、锌、铁时,玉米和大豆籽粒硒、锌、铁含量明显增加,尤其是土施结合叶面喷施硒、锌、铁时效果突出。与对照比较,玉米籽粒硒增加480.4%、锌增加106.9%、铁增加126.7%; 大豆籽粒硒增加512.9%、锌增加62.2%、铁增加15.6%。综合考虑玉米、大豆产量和籽粒硒、锌、铁含量变化,锌、硒适宜土壤施用,或土施结合叶面喷施施用,叶面喷施铁可有效提高作物籽粒铁含量。     

长期肥料定位试验栗钙土中磷肥在莜麦上的产量效应及行为研究

研究了高寒半干旱区8年肥料定位试验中,磷肥和有机肥在莜麦上的产量效应、土壤磷素的平衡、土壤Olsen-P及各形态无机磷的变化。结果表明,单施磷肥(N0P1)莜麦增产30.8%、单施氮肥(N1P0)增产109.4%、氮肥和磷肥配合(N1P1)施用莜麦增产314.0%;NP间表现出显著正交互作用,NP(N1和P1)交互作用增产86.9%;施用22.5和45.0.t/hm2有机肥分别比N0P0处理增产115.1%和220.1%;施用有机肥基础上增施磷肥无明显增产效应。不同施肥处理土壤Olsen-P和各形态无机磷的增减取决于土壤磷素的积累与消耗量,7年不施磷肥土壤Olsen-P降低3.3mg/kg。施用磷肥和有机肥土壤各形态磷库均有不同程度的积累;土壤磷素积累以无机磷为主,其中Ca2-P和Ca8-P的积累量分别占土壤无机磷变化总量的19.3%和25.4%,Al-P和Fe-P分别占23.8%和14.8%,O-P和Ca10-P共占13.0%。依据土壤磷素收支平衡状况计算出维持土壤磷素平衡的P2O5用量为45.0.kg/hm2。根据肥料效应函数计算出有机肥用量为0、22.5.t/hm2时,P2O5的最高产量用量分别为98.4.kg/hm2和87.4.kg/hm2。     

天津小站稻种植区土壤主要微量营养元素的有效量及其影响因素

土壤调查研究表明，天津小站稻种植区土壤的微量元素全量中，Fe、Mn、Zn、S丰富，Cu中等，B、Mo和Se偏低；有效态含量中，Fe、Cu、Mn、S丰富，Zn和B中等偏上，较普遍缺Se，少部分土壤缺Mo。Cu、Mn、B、Mo、Se和S的有效量受全量的影响较大，Fe和Zn的有效量与其全量相关性不明显。Cu、Fe、Mo、Se、S和Mn的有效量受有机质含量的影响显著，pH对Mn和Se有效量的影响明显，水溶性盐含量与Fe、B和S呈显著正相关。天津稻田土壤需要针对性施用微肥、配施有机肥并适当调理土壤酸碱度。本研究对于稻田土壤改良和水稻品质提升具有重要理论与实用价值。     

长期不同施肥对南方黄泥田水稻子粒与土壤锌、 硼、 铜、 铁、 锰含量的影响

在福建黄泥田长期定位施肥试验的第26年,研究了不同施肥模式对水稻子粒与土壤微量元素含量的影响。结果表明,与不施肥（CK）相比,化肥+牛粪（NPKM）、 化肥+秸秆还田（NPKS）及单施化肥（NPK）处理的水稻子粒Zn、 B、 Cu含量均有不同程度的提高,并尤以NPKM处理最为明显,三种微量元素含量分别提高14.3%、 25.1%、 465.2%,均达差异显著水平。NPKM与NPKS处理还不同程度地提高了子粒Mn含量,但各施肥处理的子粒Fe含量均显著降低。各施肥处理尤其是NPKM与NPKS均显著提高了子粒微量元素吸收量。NPK处理的土壤有效B、 Fe、 Zn、 Cu含量与CK相比均呈下降趋势,且有效Zn、 Mn含量较试验前土壤分别降低了36.4%与24.6%,而NPKM与NPKS处理缓解了下降趋势,且NPKM处理的土壤有效Zn、 B、 Mn含量分别较CK提高46.6%、 52.0%、 43.0%,均达差异显著水平。土壤有机质与子粒B、 Cu、 Zn含量呈显著正相关,子粒必需氨基酸、 粗蛋白与子粒Zn含量呈显著正相关。以上结果说明,长期化肥配施牛粪或秸秆还田有利于提高水稻子粒Zn、 B、 Cu等微量元素含量和产量,改善子粒营养品质,一定程度上又可缓解土壤有效微量元素含量的下降,是适合南方黄泥田的施肥模式。