Differences in Tree Species Diversity and Soil Nutrient Status in a Tropical Sacred Forest Ecosystem on Niyamgiri Hill Range,Eastern Ghats,India

We have quantitatively analyzed the tree species diversity with respect to soil nutrient status in three sites of a sacred forest ecosystem of Niyamgiri hill range,Eastern Ghats,India.Extensive field surveys and sampling were conducted in 3 sites of the hill range:Site 1 Pterocarpus dominated forest(PTF)(19°40'02.2" N and 83°21'23.1" E),Site 2 Mangifera dominated forest(MAF)(19°40'02.8" N and 83°21'40.8" E) and Site 3 Mixed forest(MIF)(19°36'47.1" N and 83°21'02.7" E).A total of 28 families,42 genera,46 tree species,and 286 individual trees were recorded on an area of 0.6 ha.Tree density varied between 470 and 490 individuals ha-1 and average basal area between 3.16 and 10.04 m2 ha-1.Shannon Index(H') ranged from 2.34 to 4.53,Simpson's Index ranged from 0.07 to 0.09,and equitability Index ranged from 0.7 to 1.34.The number of individuals was highest in the girth at breast height(GBH) class of 50-70 cm.The soil nutrient status of the three forest types was related to tree species diversity.The soil pH value of the three sites reflected the slightly acidic nature of the area.Species diversity was positively correlated with organic carbon and phosphorus and negatively with nitrogen,EC and pH.The results of the current study may be helpful to further develop a conservation planfor tree species in tropical sacred forest ecosystems.

Impact of Tree Stump Harvesting on Soil Carbon and Nutrients and Second Rotation Tree Growth in Mid-Wales, UK

The drive to develop renewable energy is increasing the interest in energy forestry. Woody biomass from forest residues has the potential to make a significant contribution to greenhouse gas emission reduction through fossil fuel substitution. However, there is a danger of operational practice running ahead of the understanding of the environmental impacts of such activities. Consequently, there is an urgent requirement for scientifically underpinned guidance on the best management practices to ensure soil and water protection, including sustaining forestry’s key role in carbon capture. This study addresses the main issues associated with stump harvesting practices and their impacts on soil carbon and nutrient capital and effects on the second rotation tree growth. It reports results from a clearfell site in the UK where experimental stump harvesting was carried out in 2005 before replanting with Sitka spruce Picea sitchensis (Bon.)Carr. Both stump harvested and conventional harvested areas (Control) were studied in 2009 and 2010, five years after harvesting, on the two distinct soil types at the site: podzolised brown earth and peaty gley soils. Results show impacts of stump harvesting on soil carbon and nitrogen stocks, residual water, base cations (K+, Ca2+ and Mg2+) concentrations and stocks and bulk density in both soil types. The organic peaty gley soil showed larger and deeper profile changes after stump harvesting compared with the podzolised brown mineral soil, where some of the negative changes in C, N and base cations in the top soil were compensated by increases at depth. Tree assessment showed positive effect of stump harvesting on K and Ca uptake by young seedlings, but N and P nutrient status was reduced on the peaty gley soils. The overall results support the current UK forestry guidance for stump harvesting which identifies that soil type is the most important site factor determining the sustainability of the practice.

闽楠-木荷混交林空间结构及其养分利用

【目的】为探讨混交林中闽楠和木荷的种间关系,确定木荷能否作为闽楠的伴生树种营建健康高效的闽楠-木荷混交林。【方法】以金洞林场16年生的闽楠-木荷混交林以及闽楠纯林、木荷纯林为研究对象,通过分析闽楠-木荷混交林的根系分布特性与林分空间结构特性来探讨闽楠-木荷混交林地上与地下部分的种间关系;通过分析不同物候期下3种林分的闽楠与木荷叶片养分的动态规律来阐明闽楠与木荷之间的养分利用关系。【结果】1)在16年生闽楠-木荷混交林中,在闽楠周围1.5 m内闽楠和木荷的根系分布虽有部分重叠,但闽楠仍占据优势地位,闽楠和木荷在地下生长空间和养分吸收利用方面存在竞争但竞争不激烈;2)整体林分空间结构上,闽楠、木荷纯林略优于闽楠-木荷混交林,说明混交林的树种不同,树种之间的生长特性和生态特性不一样,林分的均一性会差一些,对其调整结构的难度要大于纯林。混交林中,木荷已对闽楠形成了一定的竞争优势;3)闽楠-木荷混交林中,对养分吸收利用在物候期上部分不同步,存在相对有利的互补关系;从所有的物候期来看,闽楠叶片的N、P、K含量在大部分时期都高于木荷,表明闽楠-木荷混交更有利于闽楠对养分的吸收利用,木荷对养分的需求更低;4)16年生混交林中闽楠、木荷的生长速度要优于相应的纯林,表明前期竞争促进了林分的生长。【结论】闽楠与木荷混交有利于闽楠获得更多的养分,适度竞争促进了林木的生长,木荷是闽楠较好的伴生树种。

初植和补植阔叶树对红壤丘陵区湿地松养分获取和转运的影响

【目的】探究初植(同龄混植)和补植(异龄混植)阔叶树对湿地松养分获取和利用策略的影响,为湿地松林的科学管理提供参考。【方法】以种植于我国亚热带红壤丘陵区的湿地松林为对象,基于长期单种和混交试验平台,分别在林龄30年且立地条件相似的湿地松纯林、湿地松-木荷初植混交林、湿地松-木荷补植混交林(补植木荷14年)中构建5块20 m×20 m标准样地(共15块样地),采集湿地松标准木的根际土壤、细根、枝、新鲜叶和凋落叶样品,测定土壤和植物各器官的氮(N)、磷(P)含量,评估不同混交模式对根养分捕获能力、叶养分回收和树木养分转运的影响,揭示养分获取策略变化的驱动因素。【结果】混交阔叶树显著提高湿地松根际土壤的NH_4~+-N和矿质氮含量(P<0.05),但根际土壤养分含量在初植和补植混交林之间无显著差异(P>0.05);整体看,混交阔叶树提高湿地松各器官的N、P含量,其中初植混交效应比补植好。与纯林相比,初植混交林中湿地松根氮和磷捕获能力分别显著提高14.04%和46.16%,叶氮回收效率显著降低6.07%,磷回收效率显著提高15.49%。尽管补植阔叶树降低根养分捕获成本,但阔叶树根系抑制湿地松根系的养分捕获能力,导致补植混交林中湿地松根养分捕获能力和叶养分回收效率均无显著变化。此外,与纯林相比,初植混交林中湿地松运输根向枝、叶的N转运分别提高36.05%和15.61%,P转运分别降低35.13%和36.52%;补植混交林中N转运无显著变化,但运输根向枝、叶的P转运比在纯林分别降低53.21%和40.17%。【结论】混交阔叶树提高红壤丘陵区湿地松根际土壤和植株各器官的养分含量,改变湿地松养分获取策略,其中初植比补植更能促进湿地松的养分获取和利用。此外,养分在植物体内的转运过程可被检测,且反映根捕获和叶回收的权衡关系。

北京市元宝槭和紫丁香叶片的功能性状和生态化学计量比及养分重吸收效率的城乡梯度差异

【目的】探究城市典型观赏树种养分限制沿城乡环境梯度的响应差异,以期为城市化下的城市森林观赏树种养分管理提供科学依据。【方法】分别于夏季和秋季沿北京城区–近郊–远郊梯度上采集典型观赏树种元宝槭和紫丁香的成熟叶和凋落叶,测定其6种叶片功能性状(叶鲜质量、叶干质量、叶面积、比叶面积、比叶质量、叶片含水率)和6种营养元素含量[(碳(C)、氮(N)、磷(P)、钾(K)、钙(Ca)、镁(Mg)],计算元素的化学计量比值和养分重吸收效率,比较元宝槭和紫丁香在叶片功能性状、生态化学计量特征以及养分重吸收效率上的差异;分析年均温度、年降水量、年均太阳辐射量等环境因子与元宝槭和紫丁香叶片功能性状、生态化学计量特征以及养分重吸收效率的相关性。【结果】叶片功能性状、营养元素含量及其化学计量比值对城市化有显著响应,且存在种间差异。沿城区到远郊梯度,元宝槭和紫丁香成熟期叶鲜质量、叶干质量、叶面积、比叶面积、叶片含水率整体呈上升趋势,而比叶质量降低。凋落期元宝槭叶片的叶鲜质量和叶干质量沿城乡梯度逐渐降低;紫丁香凋落叶的叶干质量和比叶质量在城乡梯度上呈先升高后降低的趋势,叶面积则逐渐变小。2个树种凋落叶的比叶面积均沿城乡梯度先降低后升高。元宝槭和紫丁香成熟叶的N和K含量在近郊低于城区和远郊;元宝槭成熟叶的P和Mg含量在城乡梯度上变化不显著,而紫丁香成熟叶的P和Mg含量在近郊显著高于城区和远郊。元宝槭凋落叶P和Mg含量沿城乡梯度无明显变化;紫丁香凋落叶P含量在近郊显著高于城区和远郊,而Mg含量在远郊显著低于城区和近郊。元宝槭和紫丁香凋落叶K含量在城乡梯度上均先降低后升高。2个树种N、P、K、Ca和Mg 5种营养元素的养分重吸收效率沿城乡梯度无明显差异。【结论】城市化导致元宝槭和紫丁香的叶片变小。2个树种的生长均受N限制,城区的元宝槭和远郊的紫丁香具有更强的耐旱性,2个树种在不同梯度上K、Ca和Mg的重吸收效率均低于全球平均水平,元宝槭对营养元素的重吸收能力强于紫丁香。与叶片养分含量和养分重吸收效率相比,叶片功能性状与环境因子的关系更为密切。

叶面喷施微生物制剂对苹果树体生长、果实表型性状和叶片营养元素的影响

为了分析叶面喷施微生物制剂对苹果树体生长、苹果果实表型性状和叶片营养元素的影响,设置了3种常用微生物制剂(T_(1):巨大芽孢杆菌菌剂、T_(2):枯草芽孢杆菌剂、T_(3):密旋链霉菌剂),分别按照不同剂量(10、20、30 g/667 m^(2))进行叶面喷施,对比分析了不同微生物制剂在不同施用剂量下对苹果生长、果实及营养指标的影响。结果表明:当T_(1)微生物菌剂的施用剂量为20 g/667 m^(2)时,苹果树冠径、干径、新梢长度、新梢粗度、百叶鲜重、百叶干重等树体的生长情况最佳;当T_(1)微生物制剂的施用剂量为20、30 g/667 m^(2)时,苹果果实单果重、果实横径、果实纵径、果柄粗度等表型性状指标较高,而果柄长度较低;T_(1)、T_(3)微生物制剂的施用剂量为30 g/667 m^(2)时,苹果叶片中的N、P、K含量均较高,且前者的Ca和Mg含量更高;T_(2)微生物制剂在果树树体生长、果实表型性状和叶片营养元素含量方面均低于T_(1)、T_(3)微生物制剂。综上,巨大芽孢杆菌菌剂的施用效果在3种微生物菌剂中最为理想,最佳施用剂量为20 g/667 m^(2)。

Leaf nitrogen and phosphorus resorption of woody species in response to climatic conditions and soil nutrients： a meta-analysis

Nutrient resorption before abscission is an important nutrient conservation mechanism regulated by climatic conditions and soil nutrients. However, our current understanding of leaf nutrient resorption is primarily derived from site-specific studies or from the use of greenleaf nutrient concentrations to represent those in soils. It remains unknown how nutrient resorption responds to natural soil-nutrient concentrations at a global scale. The effects of plant functional groups, climatic conditions, and soil nutrients and their interactions on leaf nutrient resorption are also unknown. In this study, we established a global database derived from 85 published papers, including 547 reports of nitrogen and phosphorus resorption efficiency （NRE and PRE）, climatic factors （LAT, latitude; MAT, mean annual temperature; MAP, mean annual precipitation） and soil-nutrient data （STN, soil total nitrogen; STP, soil total phosphorus） across 111 research sites. The results demonstrated that mean NRE and PRE were 48.4 and 53.3%, respectively. NRE of trees was lower than those of shrubs. NRE and PRE of coniferous species were both higher than those of broad-leaved species. Evergreen species had higher PRE than did deciduous species. NRE was negatively related to STN, but PRE and STP were not related. Both NRE and PRE decreased with increasing MAT and MAP but increased with increasing LAT. Plant functional groups, climate and soil nutrients jointly explained 22 and 32% of the variations in NRE and PRE, respectively. It is important to note that climate （especially MAT） explained 12 and 29% of the variations in NRE and PRE, respectively, implying that continuing global warming will exert an increasingly profound influence on plant nutrient cycles.

Almond Consumption Is Associated with Better Nutrient Intake, Nutrient Adequacy, and Diet Quality in Adults: National Health and Nutrition Examination Survey 2001-2010

Purpose: The purpose of this study was to examine the association between almond consumption, the most widely consumed tree nut in the US, and nutrient intake, nutrient adequacy, diet quality, and weight/adiposity in adults. Methods: Data from adults (N=24,808), 19+ years, participating in the NHANES 2001-2010 were used. The NCI method was used to estimate the usual intake of almonds and selected nutrients. Almond consumers were defined as those consuming any amount of almonds/almond butter. Percentages of the consumers/non-consumers below the Estimated Average Requirement (EAR) or above the Adequate Intake (AI) for select nutrients were determined. To assess significant differences for the percentage of almond consumers vs. non-consumers with intakes less than the EAR or above the AI, a Z-statistic for differences in population proportions was used. Covariate-controlled linear regression was used to determine differences in diet quality, measured by the Healthy Eating Index-2010 (HEI-2010), between the consumer groups. Body mass indices and waist circumference were assessed. P was set at p < 0.01. Results: Almond consumers were more likely to be non-Hispanic white, older, of higher income, more physically active, and were less likely to be a current smoker than non-consumers. Usual intake of almonds among consumers was 29.5 ± 1.5 g/day. Usual intake of protein;dietary fiber;vitamins A, D, E, and C;thiamin;niacin;riboflavin;folate, calcium, copper, magnesium, iron, phosphorus, selenium, zinc, and potassium was higher in almond consumers. Almond consumers were less likely to be below the EAR for protein, vitamins A, D, E, B12, and C;riboflavin;calcium;copper;magnesium;iron;phosphorus;and zinc. They were also more likely to be above the AI for dietary fiber and potassium. Total HEI-2010 scores were approximately 15 points higher in almond consumers. Body mass indices and waist circumference measures were lower in almond consumers. Conclusions: Moderate consumption of almonds should be encouraged as part of a healthy diet.

留树保鲜技术对油甘果实品质的影响

为探究留树保鲜技术在油甘生产中的可行性,以‘上湖仙’油甘正季果(11月采摘)和留树保鲜果(1月采摘、4月采摘)为试验材料,采用微量法测定果实的氨基酸(半胱氨酸、谷氨酸、赖氨酸、脯氨酸和羟脯氨酸)、糖(总糖、还原糖和蔗糖)、营养成分(水溶性果胶、单宁、纤维素和还原型抗坏血酸)、功能性成分(总抗氧化能力、类黄酮、原花青素和总酚)和活性酶(碱性磷酸酶、酸性磷酸酶、羧酸酯酶、超氧化物歧化酶、过氧化物酶、过氧化氢酶、多酚氧化酶和乙酰胆碱酯酶)等24个指标。结果表明,‘上湖仙’油甘留树保鲜与正季采收相比,氨基酸含量呈显著上升趋势(P<0.05),且积累量与留树保鲜的时间呈正比;果实中总糖、蔗糖和还原糖的含量均显著下降,且留树保鲜时间越长下降程度越显著;水溶性果胶的含量与正季油甘相比差异不显著(P>0.05);单宁和纤维素含量与正季油甘相比显著降低,还原型抗坏血酸的含量显著升高;总抗氧化能力、原花青素、类黄酮和总酚含量均呈显著下降趋势(P<0.05),其中总酚含量下降了77.75%。油甘果实中8种酶活性测定结果表明,留树保鲜与正季采收相比,酸性磷酸酶、过氧化氢酶、多酚氧化酶和乙酰胆碱酯酶含量均显著降低,而碱性磷酸酶、羧酸酯酶、超氧化物歧化酶和过氧化物酶含量显著升高,其中过氧化物酶提升1.5倍,酸性磷酸酶下降了75.42%。‘上湖仙’油甘留树保鲜虽然会稍微降低果实的糖含量和抗氧化能力,但是可增加氨基酸和还原型抗坏血酸(维生素C)的含量,减少单宁、酚类和纤维素的积累而降低果实的涩味、增加化渣率,从而提升果实口感和商品性,可在油甘生产中推广应用。

基于叶片及土壤分析的古树精准复壮研究——以粤北地区典型衰弱古树为例

为了解古树的衰弱成因,制定科学的复壮措施,测定和分析衰弱古树绿叶和凋落叶的养分含量、土壤养分含量以及土壤重金属含量是有效途径。通过对粤北地区的苦槠Castanopsis sclerophylla、榕Ficus microcarpa、秋枫Bischofia javanica、樟Cinnamomum camphora和雅榕Ficus concinna等5株典型高龄古树衰弱株的抽样调查得知:1)5株衰弱古树的绿叶与凋落叶养分含量(N、P、K、Ca、Mg、S)与健康株相比,养分含量较低且各具差异性;2)除樟树外其余4株古树土壤养分含量(全N、全P、全K、碱解N、有效P、有效K)均处于缺乏水平。3)抽样调查证实了土壤重金属超标,可能会加剧一些古树的衰老。古树的精准复壮方案应按照不同衰弱树种营养元素含量水平制定,采取相应措施,如给古树补充相应的营养液、施加有机肥、更换肥土等,同时防控土壤重金属污染。

施肥对阿克苏地区骏枣园土壤、叶片养分及枣果品质的影响

【目的】为找到更加适合当地骏枣生长发育的施肥方案提供参考。【方法】在新疆佳木果树学国家长期科研基地骏枣示范园内进行大田试验,设置常规施肥(T1)、常规施肥+有机肥(T2)、常规施肥+有机肥+微生物菌剂(N22P8P18K7)(T3)、常规施肥+有机肥+微生物菌剂(N22P7P18K24)(T4)、常规施肥+生物炭(T5)、常规施肥+木本泥炭(T6)共6个处理,分别在5个时期(幼果期、果实膨大期、白熟期、脆熟期、完熟期)测定骏枣园土壤、叶片的养分含量及枣果的品质指标,进行方差分析、相关性分析,并对枣果品质指标进行主成分分析。【结果】与T1处理相比,T3、T4、T5处理能显著提升骏枣各生育期土壤碱解N、速效P、速效K含量及叶片K含量;T5处理提升了不同时期枣果N含量,T2、T4处理显著提升了不同时期的枣果K含量,施肥处理能够使枣果N、P、K积累量升高,且最大值均出现在完熟期。在完熟期,与T1处理相比,T6处理能够显著提升枣果的维生素C含量,增幅达28.26%;T2、T3、T5处理均能显著提升枣果的蛋白质含量,各处理增幅分别达到39.63%、33.01%、26.4%;T5处理提升枣果可溶性糖含量的效果最显著,增幅达31.04%;T2、T4、T5、T6处理的枣果葡萄糖含量均显著高于T1处理,按照其含量由高到低排列依次为T5、T6、T4、T2。T2处理能够降低不同时期枣果的可滴定酸含量,T3、T4处理能够提升各时期枣果果糖含量,且完熟期T3处理的果糖含量达到整个生育期的最大值。骏枣单果质量在完熟期无显著差异。果实品质综合得分前2名分别为微生物菌剂T3、T4处理,且T3处理的得分高于T4处理。【结论】各施肥处理均能起到提升土壤、叶片养分含量及果实品质的作用,但作用时期不尽相同。在各处理中,T3处理能够有效提升骏枣园土壤、叶片的养分含量且枣果品质综合得分最佳,在当地生产实践中推荐使用。

果园生草对苹果园杂草控制、土壤养分及果树营养状况的影响

【目的】研究果园生草对果园杂草防控、土壤养分和果树营养状况的影响,并对3个生草处理进行主成分分析,选出最优果园生草处理,为阿克苏地区生草制果园的土壤管理及种植模式提供理论依据和技术指导。【方法】设对照处理(清耕)、白三叶(Trifolium repens)、黑麦草(Lolium perenne)和油菜(Brassica rapa var.oleifera de Candolle)4个处理,每个处理3次重复,共12个小区。测定2017~2019年牧草和杂草地上生物量、2019年土壤养分及果树叶片营养成分含量;采用主成分分析法,分析及综合评价不同生草制度下的杂草生物量、土壤指标以及果树叶片营养指标因子。【结果】2019年白三叶处理下杂草地上生物量下降幅度最大(59.3%)。油菜处理下土壤有机质(23.90 g/kg)、土壤速效钾(164.37 mg/kg)和碱解氮含量(89.77 mg/kg)最高。与对照处理相比,3个生草处理均可显著(P<0.05)增加苹果园土壤含水量、有机质、速效磷、碱解氮,降低果园土壤容重和pH,显著(P<0.05)增加叶片中的叶绿素、磷、氮、镁、钠。【结论】苹果园生草以种植油菜为最佳。

不同树龄石榴园土壤养分调查与评价

[目的]测定石榴园土壤养分含量,评价其丰缺状况,为果园养分管理和科学施肥提供参考。[方法]在安徽省宿州市埇桥区选取4种不同树龄(1、3、5、10年)的石榴园,对其pH、有机质、速效氮、有效磷和速效钾含量进行测定,根据相关分级标准,分析果园土壤养分丰缺状况。[结果]研究区域内石榴园土壤pH为7.62~8.52,呈中性至弱碱性;土壤有机质含量为11.1~31.7 g/kg,有机质含量相对缺乏,70%的果园土壤有机质含量低于20 g/kg;速效氮含量为41.2~138.6 mg/kg,其中85%的果园土壤速效氮含量低于90 mg/kg,总体表现为缺乏水平;土壤有效磷(20.5 mg/kg)和速效钾(189.8 mg/kg)均较为丰富。不同树龄果园0~20 cm土层土壤有机质、速效氮、有效磷和速效钾含量均显著高于20~40 cm土层;石榴园土壤有机质、速效氮、有效磷和速效钾含量均随树龄的增加呈降低趋势。[结论]综合不同树龄果园和不同土层土壤养分含量及差异,该区域石榴园应注重提升土壤有机质,适当增加氮肥施用量,改进施肥方式,提高肥料利用率。

利用CND法进行荔枝、龙眼叶片营养诊断研究的适宜性

【目的】确定作物高产水平是建立作物叶片营养诊断指标的前提。探讨组分营养诊断法(Compositional Nutrient Diagnosis,CND)在计算荔枝、龙眼高产水平时存在的问题,明确该法是否适用于荔枝、龙眼叶片营养诊断。【方法】2016—2019年在华南荔枝、龙眼主产区分别采集荔枝、龙眼末次梢老熟期和果实膨大期共511、262份叶片样本,准确记录每株采样树的果实产量,测定叶片大中微量养分含量。按照CND法原理,拟合荔枝和龙眼叶片养分含量累积方差比例函数-产量模型,分析模型中出现异常值对模型的影响,并比较剔除异常值前后养分拐点值的变化以及不同高产临界值选定原则对高产群体的影响。【结果】荔枝、龙眼不同生育期部分产量模型存在异常值。剔除这些异常值对产量模型和养分拐点值影响显著,且影响缺乏规律性。不论根据什么原则确定高产临界值,均存在高产群体样本量少、占比太低以及与实际产量水平差距太大等问题。不同年份相同生育期和相同年份不同生育期计算获得的高产临界值差异大、稳定性差。此外,无论对异常值的处理,还是高产临界值的选择,均存在较强的主观性。【结论】在荔枝、龙眼上应用CND法划分高产群体存在明显局限性。这可能是研究的样本量、作物叶片养分含量状况和计数量纲三者共同制约的结果。建议在年际产量变幅大的多年生木本果树上谨慎采用该法进行叶片营养诊断研究。

水肥耦合效应对苹果幼树生长、果实产量品质及土壤养分特征的影响

【目的】通过对3年生苹果幼树进行水分调控和有机肥替代耦合试验,探寻一种促进黄土高原地区苹果树生长、提升果实产量和品质,并能提升土壤肥力的果园灌溉施肥模式。【方法】于2020—2022年在陕西省渭南市白水县苹果试验站进行,供试材料为3年生瑞雪苹果幼树,试验设置水分和施肥2因素,其中水分设置3个处理,分别为田间持水量的80%(W1)、田间持水量的60%(W2)、田间持水量的40%(W3);施肥设置3个处理,分别为常规施肥(F1)、有机肥替代氮肥20%(F2)、有机肥替代氮肥40%(F3),并设置一个对照组(CK,田间持水量的80%,不施肥),测定两年的果树生长量、果实产量和品质,以及土壤养分含量。【结果】(1)合理的有机肥替代量(F3、F2)及高、中灌水量(W1、W2)促进了两年苹果幼树株高和茎粗的生长。(2)两年果实最大产量均出现在F3W1处理,分别为0.74、4.84 kg。(3)合理的有机肥替代量(F3、F2)及高、中灌水量(W1、W2)促进了果实横径和纵径的提升,水肥耦合对两年果实的果形指数影响均不显著;合理的水肥耦合促进了两年果实可溶性固形物含量、固酸比的提升和可滴定酸含量的降低,有机肥替代氮肥40%及高灌水量(F3W1)效果最佳,该处理下两年可溶性固形物含量(w,后同)分别为19.26%、22.20%,固酸比分别为41.33、62.82,可滴定酸含量分别为0.473%、0.265%;低灌水量(W3)也可以促进可溶性固形物含量的提升。(4)合理的水肥耦合整体上促进了两年土壤各项养分指标的提升。(5)根据相关性分析,2021年果实产量、品质与土壤养分显现出不同程度的显著负相关;2022年果实产量以及果实横径、纵径、固酸比与土壤有机质含量呈显著正相关(p<0.05),可溶性固形物含量、可滴定酸含量与土壤有机质含量呈显著负相关(p<0.05),固酸比与土壤全氮含量呈显著正相关(p<0.05)。【结论】合理的有机肥替代化肥及水分调控可以促进果树生长,提高果实产量和品质以及土壤肥力,有机肥替代氮肥40%(F3)配合土壤80%田间持水量(W1)为当地果园较好的控水施肥模式。

滴灌水温对土壤和骏枣树体养分含量的影响

【目的】研究滴灌水温对骏枣林土壤和树体养分吸收的影响,为新疆南疆地区红枣栽培提供技术支持。【方法】在新疆南疆地区,以5年生骏枣为研究对象,以自然水温为对照(CK),探讨不同滴灌水温(10,20,30,40℃)对骏枣林下0~10,10~20和20~40 cm土层土壤速效N、速效P和速效K及枣树各器官(果实、枣吊、二次枝和叶片)全N、全P、全K含量的影响。【结果】(1)20℃水温处理可以提高0~10,10~20 cm土层的速效P含量,较CK处理增加32.29%,16.92%;与CK处理相比,10℃水温处理可以提高20~40 cm土层的速效N含量和0~20 cm土层的速效K含量,30℃水温处理可以提高0~10 cm土层的速效N含量和20~40 cm土层的速效P含量,40℃水温处理可以提高10~20 cm土层的速效N含量,但差异均未达到显著水平。(2)CK处理可以提高骏枣叶片的全N、P、K含量和二次枝的全N、全K含量。与CK处理相比,20℃水温处理可以提高骏枣果实中的全N、P、K含量及枣吊全N含量和二次枝的全P含量,其中果实中全K含量较CK显著增加了1.13 g/kg,其他差异均未达到显著水平。40℃水温处理可以提高枣吊的全P、全K含量,但差异均未达到显著水平。【结论】增温水可以提高土壤和树体的养分含量。

过表达茶树自噬相关基因CsATG3b对拟南芥氮利用效率的影响

为探究茶树自噬相关基因CsATG3b在茶树氮利用中的潜在作用,从茶树中克隆了CsATG3b基因,在拟南芥中验证其参与氮利用的功能。结果显示,CsATG3b的表达水平随着茶树叶片成熟度的增加呈上升的趋势;与野生型拟南芥相比,低氮条件下,CsATG3b过表达株系(CsATG3b-OE)的根冠比和氮含量显著增加;过表达CsATG3b改变氮在植株体内的分配,正常氮条件下促进氮向茎生部位分配,低氮条件下促进氮向根系分配;过表达CsATG3b株系在低氮条件下显著上调根中氮吸收与转运相关基因AtNRT1.1、AtNRT2.1、AtNRT2.2和莲座叶中氨基酸转运基因AtAAP1、AtAAP4、AtAAP6及自噬相关基因AtATG3、AtATG5、AtATG8b的表达水平;过表达CsATG3b株系在正常氮条件下氮的积累增加,在低氮条件下的氮利用效率显著提高。结果表明,过表达CsATG3b能够通过调控拟南芥氮的吸收转运基因和自噬相关基因表达,从而提高植株氮利用效率及耐低氮胁迫的能力。