| [ | |
| { | |
| "id": 3533, | |
| "category": "农学", | |
| "discipline": "农业管理", | |
| "title": "基于ArcGIS的常熟市耕地土壤养分时空变化研究", | |
| "source": "本研究为县域中小水平空间尺度,主要从气候条件因素、土壤管理因素方面进行土壤养分时空变化分析,重点讨论化肥与农药施用量、农作物种植结构、农地利用强度等方面的影响。", | |
| "reference": "本研究为县域中小水平空间尺度,主要从气候条件因素、土壤管理因素方面对土壤养分时空变化进行研究,重点讨论化肥与农药施用量、农作物种植结构、土地利用率等方面的影响。", | |
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| { | |
| "id": 3535, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "秸秆还田减施化肥对农田土壤养分及磷素淋失的影响", | |
| "source": "(3)秸秆还田可有效提高农田土壤中养分含量,腐殖酸肥施用能促进作物的生长,增加土壤养分含量的增加,降低土壤淋溶液中磷素淋失。", | |
| "reference": "(3)秸秆还田可有效提高农田土壤的养分含量,腐殖酸肥施用能促进作物的生长,使土壤养分含量增加,使土壤淋溶液中磷素淋失降低。", | |
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| }, | |
| { | |
| "id": 3549, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "暗管排水对水稻生长和土壤养分特征的研究", | |
| "source": "对照田0-60cm土层土壤养分与幹物重、分蘖数和株高均无显著相关关系。", | |
| "reference": "对照田0-60cm土层土壤养分与干物重、分蘖数和株高均无显著相关关系。", | |
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| { | |
| "id": 3601, | |
| "category": "农学", | |
| "discipline": "环境科学与工程", | |
| "title": "基于生物炭补偿的土壤养分化学计量平衡研究", | |
| "source": "玉米秸秆生物炭和鸡粪生物炭平衡时的可溶性磷释放量分别为3.2967mg/g和5.5350mg/g。", | |
| "reference": "玉米秸秆生物炭在平衡状态下的可溶性磷释放量为3.2967mg/g,而鸡粪生物炭的相应释放量为5.5350mg/g。", | |
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| { | |
| "id": 3617, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "蚯蚓粪有机肥施用对稻田土壤养分及吸收的影响", | |
| "source": "王明友等人的结果表明,在通过增施有机肥的条件下,可以调控土壤酶活性,增加土壤养分。", | |
| "reference": "王明友等人的研究结果表明,在增施有机肥的条件下,可以调控土壤酶活性,增加土壤养分。", | |
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| { | |
| "id": 3637, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "沼液施用条件对土壤养分、生态风险与玉米产量的影响", | |
| "source": "沼液施用除了对一般作物有促进增产作用外,还可增加水果产量及品质。", | |
| "reference": "沼液施用不仅对一般作物有促进增产的作用,还可增加水果产量及品质。", | |
| "edit": [ | |
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| { | |
| "id": 3643, | |
| "category": "农学", | |
| "discipline": "农业工程", | |
| "title": "基于深度学习的土壤养分预测研究", | |
| "source": "文献对淮北平原的土壤水分利用ARIMA模型进行了预测,ARIMA模型在预测该区冬小麦土壤水分时间序列上取得了很好的效果。", | |
| "reference": "文献对淮北平原的土壤水分使用ARIMA模型进行了预测,ARIMA模型在预测该区冬小麦土壤水分时间序列上取得了很好的效果。", | |
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| { | |
| "id": 3651, | |
| "category": "农学", | |
| "discipline": "地图制图学与地理信息工程", | |
| "title": "山东省耕地土壤养分数据库建立及其分异特征分析", | |
| "source": "虽然建国以来,我国已先后开展了两次土壤普查,但是第二次土壤普查距今已近40年,耕地状况尤其是养分状况已发生了巨大的变化,而且普查数据资料均为专题图件,已不能满足现代农业管理的需要。", | |
| "reference": "虽然建国以来,我国已先后开展了两次土壤普查,但是第二次土壤普查距今已近40年,当前耕地状况尤其是土壤养分养分状况已发生了巨大的变化,而且普查数据资料均为专题图件,已无法满足当前现代农业管理的需要。", | |
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| { | |
| "id": 3666, | |
| "category": "农学", | |
| "discipline": "食品加工与安全", | |
| "title": "油菜素内酯对西甜瓜农药残留降解作用的研究", | |
| "source": "新疆素有“瓜果之乡”的美誉,一直以来都是我国重要的西瓜、甜瓜主产区,常年西瓜、甜瓜总产量分别约占全国总产量的4%和16%左右。", | |
| "reference": "新疆素有“瓜果之乡”的美誉,一直以来都是我国重要的西瓜、甜瓜主产区,常年西瓜、甜瓜总产量分别占全国总产量的4%和16%左右。", | |
| "edit": [ | |
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| { | |
| "id": 3674, | |
| "category": "农学", | |
| "discipline": "作物栽培学与耕作学", | |
| "title": "周年施氮对麦-豆农田土壤养分及土壤微生物特性的影响", | |
| "source": "由冬小麦不同施氮量对土壤放线菌数量的影响如图4-5所示,不同处理随麦季施氮量的增加,土壤放线菌数目呈先增后降的变化趋势,2018年在N1处理达到最大,而2019年在N2处理达到最大,且均与其他处理达到显著差异,虽然两年的规律不尽一致,但均表明麦季适量施氮(N1、N2)能显著提高土壤放线菌的数量,施氮量过多则显著降低了土壤放线菌数量。", | |
| "reference": "由冬小麦不同施氮量对土壤放线菌数量的影响如图4-5所示,随着麦季施氮量的增加,土壤放线菌数目呈先增后降的变化趋势,2018年在N1处理达到最大,而2019年在N2处理达到最大,且均与其他处理存在显著差异,虽然两年的规律不尽一致,但均表明麦季适量施氮(N1、N2)能显著提高土壤放线菌的数量,施氮量过多则显著降低了土壤放线菌数量。", | |
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| { | |
| "id": 3681, | |
| "category": "农学", | |
| "discipline": "农业工程", | |
| "title": "基于深度学习的土壤养分预测研究", | |
| "source": "同样的,车排子垦区和胡杨河垦区预测效果均明显好于奎屯垦区和高泉垦区。", | |
| "reference": "同样,车排子垦区和胡杨河垦区预测效果均明显好于奎屯垦区与高泉垦区。", | |
| "edit": [ | |
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| { | |
| "id": 3702, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "本章研究所使用的文献为包含一种或几种(包括施用和不施用生物质炭处理)目标酶活性。", | |
| "reference": "本章研究所使用的文献包含一种或几种(包括施用和不施用生物质炭处理)目标酶活性。", | |
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| { | |
| "id": 3707, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "农业大数据实际业务为主体,云计算以技术为前提。", | |
| "reference": "以云计算技术为前提支撑农业大数据实际业务的运作。", | |
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| "计", | |
| "算", | |
| "技", | |
| "术", | |
| "为", | |
| "前", | |
| "提", | |
| "支", | |
| "撑" | |
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| 22 | |
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| "云", | |
| "计", | |
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| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3714, | |
| "category": "农学", | |
| "discipline": "农业管理", | |
| "title": "基于ArcGIS的常熟市耕地土壤养分时空变化研究", | |
| "source": "整体来说,常熟市耕地土壤养分处于中高等水准,肥力较高。", | |
| "reference": "整体来说,常熟市的耕地土壤养分位于中高等水准,肥力较高。", | |
| "edit": [ | |
| { | |
| "src_interval": [ | |
| 8, | |
| 8 | |
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| 15 | |
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| 16 | |
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| "src_tokens": [ | |
| "处" | |
| ], | |
| "tgt_tokens": [ | |
| "位" | |
| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3732, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "对于数据挖掘算法为分析土壤养分状况需要结合多年的地方土壤类型信息校验。", | |
| "reference": "在利用数据挖掘算法分析土壤养分状况时,需要参考多年的当地土壤类型信息并进行校验。", | |
| "edit": [ | |
| { | |
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| 2 | |
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| 9 | |
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| 17 | |
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| 19 | |
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| 21 | |
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| 23 | |
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| "src_tokens": [ | |
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| 26 | |
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| "tgt_interval": [ | |
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| 28 | |
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| "src_tokens": [ | |
| "地", | |
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| ], | |
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| 32, | |
| 32 | |
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| 37 | |
| ], | |
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| "tgt_tokens": [ | |
| "并", | |
| "进", | |
| "行" | |
| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3759, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "本研究在2011年5月至2012年10月山西忻州进行,当地土壤类型为褐土性土,常规种植模式为一年一季玉米。", | |
| "reference": "本研究在2011年5月至2012年10月山西忻州进行,该地区土壤类型为褐土性土,常规种植模式为一年一季玉米。", | |
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| 29 | |
| ], | |
| "tgt_interval": [ | |
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| ], | |
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| "当", | |
| "地" | |
| ], | |
| "tgt_tokens": [ | |
| "该", | |
| "地", | |
| "区" | |
| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3761, | |
| "category": "农学", | |
| "discipline": "植物营养学", | |
| "title": "陕西省耕地土壤养分现状与土壤肥力评价", | |
| "source": "所选取的指标要尽可能反应土壤整体的肥力特点,要考虑多方面因素来确定评价指标(骆东奇等2002);四是具有可实施性原则。", | |
| "reference": "所选取的指标要尽可能反映土壤整体的肥力特点,要考虑多方面因素来确定评价指标(骆东奇等2002);四是具有可实施性原则。", | |
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| 12 | |
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| 12 | |
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| "应" | |
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| 38 | |
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| 38 | |
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| "(" | |
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| 46, | |
| 47 | |
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| 46, | |
| 47 | |
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| ")" | |
| ], | |
| "tgt_tokens": [ | |
| ")" | |
| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3770, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "Vaccari et al,(2011)在小麦种植中施入生物质炭发现小麦产量在增加30%。", | |
| "reference": "Vaccari et al,(2011)在小麦种植中施入生物质炭后发现小麦产量增长了30%。", | |
| "edit": [ | |
| { | |
| "src_interval": [ | |
| 30, | |
| 30 | |
| ], | |
| "tgt_interval": [ | |
| 30, | |
| 31 | |
| ], | |
| "src_tokens": [], | |
| "tgt_tokens": [ | |
| "后" | |
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| { | |
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| 36, | |
| 39 | |
| ], | |
| "tgt_interval": [ | |
| 37, | |
| 40 | |
| ], | |
| "src_tokens": [ | |
| "在", | |
| "增", | |
| "加" | |
| ], | |
| "tgt_tokens": [ | |
| "增", | |
| "长", | |
| "了" | |
| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3776, | |
| "category": "农学", | |
| "discipline": "食品加工与安全", | |
| "title": "油菜素内酯对西甜瓜农药残留降解作用的研究", | |
| "source": "结果表明,在喷施农药后7d内喷施BR能够有效减少西瓜果实中苯醚甲环唑的含量。", | |
| "reference": "结果表明,在喷施农药后7d内喷施BR能够有效减少西瓜果实中苯醚甲环唑的含量。", | |
| "edit": [] | |
| }, | |
| { | |
| "id": 3802, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "存储的真实数据存储在数据节点上,客户端通过名字节点对数据节点进行管理并进行数据连接访问。", | |
| "reference": "存储的真实数据存储在数据节点上,客户端对数据节点进行管理及数据连接访问需要通过名字节点。", | |
| "edit": [ | |
| { | |
| "src_interval": [ | |
| 19, | |
| 25 | |
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| "tgt_interval": [ | |
| 19, | |
| 19 | |
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| "过", | |
| "名", | |
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| 34, | |
| 37 | |
| ], | |
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| 28, | |
| 29 | |
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| "并", | |
| "进", | |
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| 43 | |
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| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3813, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "内蒙古西辽河施肥管理区土壤养分空间分布特征及肥力评价与施肥管理", | |
| "source": "西辽河施肥管理区土壤9种养分的隶属度均值所组成的多边形面积较小,总体看来,该区域整体土壤养分肥力还有所欠缺,可以通过科学合理的施肥措施逐渐改善土壤的养分含量水平。", | |
| "reference": "西辽河施肥管理区土壤9种养分的隶属度均值所组成的多边形面积较小,总体看来,该区域整体土壤养分肥力还有所欠缺,可以采用科学合理的施肥措施逐步改善土壤的养分含量水平。", | |
| "edit": [ | |
| { | |
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| 56, | |
| 58 | |
| ], | |
| "tgt_interval": [ | |
| 56, | |
| 58 | |
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| "src_tokens": [ | |
| "通", | |
| "过" | |
| ], | |
| "tgt_tokens": [ | |
| "采", | |
| "用" | |
| ] | |
| }, | |
| { | |
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| 68, | |
| 69 | |
| ], | |
| "tgt_interval": [ | |
| 68, | |
| 69 | |
| ], | |
| "src_tokens": [ | |
| "渐" | |
| ], | |
| "tgt_tokens": [ | |
| "步" | |
| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3853, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "寒地稻草还田对土壤养分与CH_4及N_2O排放的影响", | |
| "source": "5cm还田深度稻草磷含量较10cm还田深度稻草磷含量低36.36%。", | |
| "reference": "5cm还田深度稻草磷含量比10cm还田深度稻草磷含量低36.36%。", | |
| "edit": [ | |
| { | |
| "src_interval": [ | |
| 12, | |
| 13 | |
| ], | |
| "tgt_interval": [ | |
| 12, | |
| 13 | |
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| "较" | |
| ], | |
| "tgt_tokens": [ | |
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| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3878, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "秸秆还田减施化肥对农田土壤养分及磷素淋失的影响", | |
| "source": "本研究通过实际田间试验,采用秸秆还田来改善土壤,增加土壤肥效,从而达到作物产量增加和环境的改善。", | |
| "reference": "本研究通过实际田间试验,采用秸秆还田来改善土壤,增加土壤肥效,从而达到作物产量增加和环境的改善的目标。", | |
| "edit": [ | |
| { | |
| "src_interval": [ | |
| 47, | |
| 47 | |
| ], | |
| "tgt_interval": [ | |
| 47, | |
| 50 | |
| ], | |
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| "tgt_tokens": [ | |
| "的", | |
| "目", | |
| "标" | |
| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3903, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "尽管生物质炭对土壤有效磷的增加效应能够持续超过两年,而该效应随施用年限的增加是持续下降的(图4-2)。", | |
| "reference": "尽管生物质炭对土壤有效磷的增加效应能够持续超过两年,但该效应随施用年限的增加是持续下降的(图4-2)。", | |
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| { | |
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| 26, | |
| 27 | |
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| "tgt_interval": [ | |
| 26, | |
| 27 | |
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| "而" | |
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| "tgt_tokens": [ | |
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| ] | |
| } | |
| ] | |
| }, | |
| { | |
| "id": 3987, | |
| "category": "农学", | |
| "discipline": "地图制图学与地理信息工程", | |
| "title": "山东省耕地土壤养分数据库建立及其分异特征分析", | |
| "source": "根据土壤土壤有机质描述性统计(表13),有机质含量不同尺度下最大值、最小值、平均值均有较大差异,具有明显的尺度差异。", | |
| "reference": "根据土壤有机质描述性统计(表13),有机质含量的最大值、最小值和平均值均有较大差异,具有明显的尺度差异。", | |
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| 4 | |
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| "土", | |
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| 15 | |
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| 13 | |
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| "(" | |
| ], | |
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| 18, | |
| 20 | |
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| 18 | |
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| ")", | |
| "," | |
| ], | |
| "tgt_tokens": [ | |
| ")", | |
| "," | |
| ] | |
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| 25, | |
| 30 | |
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| 23, | |
| 24 | |
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| 38 | |
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| 32 | |
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| ] | |
| }, | |
| { | |
| "id": 3995, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "对土壤养分数据进行挖掘,分析出土壤养分的评价潜在规则,指导农田科学施肥策略,对农作物产量、农作物生长状况预测等。", | |
| "reference": "对土壤养分数据进行挖掘,分析出土壤养分评测的潜在规则,指导农田科学施肥,对农作物产量、生长状况进行预测等。", | |
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| { | |
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| 19, | |
| 22 | |
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| "tgt_interval": [ | |
| 19, | |
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| "的", | |
| "评", | |
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| "评", | |
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| 35, | |
| 37 | |
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| 35, | |
| 35 | |
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| "src_tokens": [ | |
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| "略" | |
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| 48 | |
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| 43, | |
| 43 | |
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| 52, | |
| 52 | |
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| 47, | |
| 49 | |
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| "tgt_tokens": [ | |
| "进", | |
| "行" | |
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| } | |
| ] | |
| }, | |
| { | |
| "id": 8501, | |
| "category": "农学", | |
| "discipline": "电子与通信工程", | |
| "title": "耕地土壤养分空间插值与等级划分方法解析", | |
| "source": "最终结果表明,OK插值法的RMSE最小,其中指数函数模型插值精度最优。", | |
| "reference": "最终结果显示,OK插值法的RMSE为最小,其中指数函数模型的插值精度最为优越。", | |
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| "id": 8506, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "因此本研究明确了生物质炭对土壤磷素有效性的作用及其影响因素,为在农业生产中生产中合理应用生物质炭提供理论基础。", | |
| "reference": "因此,本研究明确了生物质炭对土壤磷素有效性的作用及其影响因素,为农业生产中合理利用生物质炭提供了理论支撑。", | |
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| { | |
| "id": 8513, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "暗管排水对水稻生长和土壤养分特征的研究", | |
| "source": "分蘖期暗管排水田各处理0-20cm土层DN含量表现为苗管距2.5m大于苗管距5m和苗管距0m,苗渠距15m>苗渠距25m>苗渠距35m,其中苗管距2.5m&苗渠距15m处理DN含量显著大于其他各处理,最大值为176.28mg/kg,比CK提高了195.33%,暗管排水田0-20cm土层DN含量平均比对照田块提高了51.73%。", | |
| "reference": "在分蘖期的暗管排水田中,各处理0-20cm土层的DN含量呈现出,苗管距2.5m>苗管距5m和苗管距0m,苗渠距15m>苗渠距25m>苗渠距35m的情况,其中苗管距2.5m与苗渠距15m处理的DN含量显著大于其他处理,最大值为176.28mg/kg,比CK提高了 195.33%,暗管排水田0-20cm土层的DN含量平均比对照田块提高了51.73%。", | |
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| { | |
| "id": 8521, | |
| "category": "农学", | |
| "discipline": "作物栽培学与耕作学", | |
| "title": "周年施氮对麦-豆农田土壤养分及土壤微生物特性的影响", | |
| "source": "而作为土壤中最活跃的微生物来说,不仅参与土壤有机质的分解与积累,氮素转化(包括生物固氮)等过程,还在提高氮素利用率、减少氮肥施用的负面环境效应方面发挥着重要作用。", | |
| "reference": "而作为土壤中最为活跃的微生物,不光参与到土壤有机质的分解与积累,以及氮素转化(包含生物固氮)等过程之中,还在提高氮素利用率、减弱氮肥施用的负面环境效应方面发挥着重要作用。", | |
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| { | |
| "id": 8529, | |
| "category": "农学", | |
| "discipline": "资源利用与植物保护", | |
| "title": "基于网格采样田块尺度土壤养分的时空变异特征", | |
| "source": "近年来,在新疆绿洲土壤上,有机质、速效磷、碱解氮总体均呈现降低趋势。", | |
| "reference": "近年来,在新疆绿洲的土壤,有机质、速效磷以及碱解氮总体呈现下降的趋势。", | |
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| 21 | |
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| 22 | |
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| "tgt_tokens": [ | |
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| 26, | |
| 27 | |
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| 27, | |
| 27 | |
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| 29, | |
| 31 | |
| ], | |
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| 29, | |
| 32 | |
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| "src_tokens": [ | |
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| }, | |
| { | |
| "id": 8538, | |
| "category": "农学", | |
| "discipline": "地图制图学与地理信息工程", | |
| "title": "山东省耕地土壤养分数据库建立及其分异特征分析", | |
| "source": "由表14可知,从大尺度到小尺度,块金系数分别为11.86%、17.12%、13.89%,均小于25%,表现出强烈的空间自相关性,结构性因素为主要影响。", | |
| "reference": "由表14可得知,自大尺度到小尺度,块金系数依次为11.86%、17.12%、13.89%,均低于25%,呈现出强烈的空间自相关性,结构性因素成为主要影响。", | |
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| 5 | |
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| 7, | |
| 8 | |
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| 8, | |
| 9 | |
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| 20, | |
| 22 | |
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| ] | |
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| 44, | |
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| ] | |
| }, | |
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| 50, | |
| 52 | |
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| 51, | |
| 53 | |
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| 69, | |
| 69 | |
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| 71 | |
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| } | |
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| }, | |
| { | |
| "id": 8546, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "内蒙古西辽河施肥管理区土壤养分空间分布特征及肥力评价与施肥管理", | |
| "source": "科左中旗和科尔沁区有效铜主要分布在1.0~1.8mg/kg之间,面积占比分别为81.0%、52.5%,其次是低等水平的面积,面积占比分别为19.0%、47.5%。", | |
| "reference": "科左中旗和科尔沁区的有效铜主要分布于1.0~1.8mg/kg之间,其面积占比分别为81.0%、52.5%,其次是低等水平的面积,占比分别为19.0%、47.5%。", | |
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| 9 | |
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| 16, | |
| 17 | |
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| 32 | |
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| 34 | |
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| 64 | |
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| 64 | |
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| }, | |
| { | |
| "id": 8550, | |
| "category": "农学", | |
| "discipline": "农业水土工程", | |
| "title": "不同作物覆盖下农田表层土壤养分空间变异性研究", | |
| "source": "根据Cochran最佳采样数量计算,计算土壤各养分指标在一定置信水平(95%、90%)和相对误差(5%、10%、15%)要求下的研究区合理采样数(表3-3)。", | |
| "reference": "根据Cochran最佳采样数量,计算土壤各养分指标在一定置信水平(95%、90%)和相对误差(5%、10%、15%)要求下的研究区合理采样数(表3-3)。", | |
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| "id": 8555, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "内蒙古西辽河施肥管理区土壤养分空间分布特征及肥力评价与施肥管理", | |
| "source": "学者们虽然都是应用的土壤养分丰缺指标法,但是在确定丰缺指标分级时采用的分级标准并不统一。", | |
| "reference": "尽管学者们普遍采用了土壤养分丰缺指标法,但在确定丰缺指标的分级标准时,他们所采用的标准并不一致。", | |
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| "id": 8562, | |
| "category": "农学", | |
| "discipline": "食品加工与安全", | |
| "title": "油菜素内酯对西甜瓜农药残留降解作用的研究", | |
| "source": "由图3-7可知,西瓜在喷施农药后,西瓜果实中超氧阴离子产生速率随采样时间呈现先急剧下降后趋于稳定。", | |
| "reference": "由图3-7可知,西瓜在喷施农药后,其果实中的超氧阴离子产生速率随采样时间先急剧下降,然后趋于稳定。", | |
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| { | |
| "id": 8576, | |
| "category": "农学", | |
| "discipline": "资源利用与植物保护", | |
| "title": "基于网格采样田块尺度土壤养分的时空变异特征", | |
| "source": "我们通过对土壤表层中各养分指标之间进行Pearson相关性分析检验可以得出(表3-3),土壤中速效钾的含量与全碳、无机碳的含量之间呈极显著正相关性(P<0.01);有机碳的含量与全碳、全氮之间均呈极显著正相关性(P<0.01);无机碳与全碳之间具有极显著的正相关性(P<0.01)。", | |
| "reference": "通过对土壤表层中各养分指标之间展开Pearson相关性分析检验,我们可以得出(表3-3),土壤中速效钾的含量与全碳、无机碳的含量呈极显著正相关(P<0.01);有机碳的含量与全碳、全氮均呈极显著正相关(P<0.01);无机碳与全碳之间存在极显著的正相关(P<0.01)。", | |
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| { | |
| "id": 8585, | |
| "category": "农学", | |
| "discipline": "环境科学与工程", | |
| "title": "基于生物炭补偿的土壤养分化学计量平衡研究", | |
| "source": "土壤养分丰缺指标的建立可以采用“3414”不完全实验,通过收获后缺素区产量与全肥区产量的百分数来计算相对产量,并以相对产量的大小以来反应农田营养状态。", | |
| "reference": "土壤养分丰缺指标的建立可运用“3414”不完全实验,通过收获后缺素区产量与全肥区产量的百分数来计算相对产量,并依据相对产量的大小来反映农田的营养状态。", | |
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| { | |
| "id": 8592, | |
| "category": "农学", | |
| "discipline": "农业管理", | |
| "title": "基于ArcGIS的常熟市耕地土壤养分时空变化研究", | |
| "source": "从有效磷相对变化量分布图来看,2010-2019年间有效磷含量增幅较大的区域主要在碧溪镇、董浜镇、梅李镇以及支塘镇,其他区域增量较少;有效磷含量降低的区域主要常福、虞山街道。", | |
| "reference": "从有效磷相对变化量分布的图来看,在2010至2019年间,有效磷含量增幅较大的区域主要是在碧溪镇、董浜镇、梅李镇以及支塘镇,其他区域的增量则较少;有效磷含量降低的区域主要是常福和虞山街道。", | |
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| 26 | |
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| 29 | |
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| 40, | |
| 40 | |
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| 44 | |
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| 62 | |
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| 64 | |
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| 70 | |
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| 79 | |
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| }, | |
| { | |
| "id": 8594, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "暗管排水对水稻生长和土壤养分特征的研究", | |
| "source": "暗管排水田0-60cm土层DOC含量差异不显著但均显著大于对照组,平均比对照田快提高了24.18%。", | |
| "reference": "暗管排水田0-60cm土层的DOC含量无显著差异,且均显著大于对照组,其平均比对照田提高了 24.18%之多。", | |
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| 21 | |
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| 23, | |
| 24 | |
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| 22, | |
| 26 | |
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| 33, | |
| 33 | |
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| }, | |
| { | |
| "id": 8597, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "当今,在现代化农业中较多的是全球定位系统(GPS),在精准施肥中应用的是定位系统是DGPS,另外还一种定位更加精确的是RTKGPS,静态定位范围可在1cm区间内,可应用于产量监测和数字化图像收集。", | |
| "reference": "如今,在现代化农业中,全球定位系统(GPS)使用较多,在精准施肥中所应用的定位系统是DGPS,还有一种定位更加精确的是RTK GPS,其静态定位范围可处于1cm区间内,能够应用于产量监测与数字化图像收集。", | |
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| "id": 8599, | |
| "category": "农学", | |
| "discipline": "电子与通信工程", | |
| "title": "耕地土壤养分空间插值与等级划分方法解析", | |
| "source": "为了得到土壤养分等级空间分布图,需要对上述所用的土壤养分各指标的点数据进行空间插值,本章选择OK插值法对四种养分指标进行空间插值,生成空间插值图。", | |
| "reference": "为了得到土壤养分等级的空间分布图,需要针对上述运用的土壤养分各指标的点数据展开空间插值。本章选择运用OK插值法对四种养分指标进行空间插值,进而生成空间插值图。", | |
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| { | |
| "id": 8600, | |
| "category": "农学", | |
| "discipline": "作物栽培学与耕作学", | |
| "title": "周年施氮对麦-豆农田土壤养分及土壤微生物特性的影响", | |
| "source": "在麦季低氮(N1)条件下,不同施氮处理随大豆季施氮量的增加均呈先增后降的变化趋势,土壤碱解氮含量最高的N1S1处理较其他处理平均依次增加了8.70%和1.27%,可见,在麦季低氮基础上大豆季中量施氮(S1)能提高土壤碱解氮含量,虽然大豆季高量施氮(S2)会造成土壤碱解氮下降,但两年均未达到显著差异。", | |
| "reference": "在麦季低氮(N1)的条件之下,不同施氮处理随着大豆季施氮量的增加,均呈现出先增后降的变化趋势。土壤碱解氮含量最高的N1S1处理较其他处理,平均依次增长了8.70%和1.27%。由此可见,在麦季低氮的基础之上,大豆季中量施氮(S1)能够提高土壤碱解氮含量,虽说大豆季高量施氮(S2)会致使土壤碱解氮下降,但两年均未达到显著差异。", | |
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| { | |
| "id": 8614, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "蚯蚓粪有机肥施用对稻田土壤养分及吸收的影响", | |
| "source": "土壤酶活性反应土壤环境的微小变化,与土壤养分吸收有关。", | |
| "reference": "土壤酶活性能够反映土壤环境的微小变化,且与土壤养分吸收有关。", | |
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| { | |
| "id": 8623, | |
| "category": "农学", | |
| "discipline": "土地资源学", | |
| "title": "山地丘陵区耕地土壤养分数字化制图研究", | |
| "source": "自变量的重要性就是通过袋外误差求得,将每个自变量随机赋值,均方误差增加的程度越大说明该自变量的重要性程度越到。", | |
| "reference": "自变量的重要性是通过袋外误差来求得的,即每个自变量随机赋值,均方误差增加的程度越大,就说明该自变量的重要性程度越高。", | |
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| }, | |
| { | |
| "id": 8624, | |
| "category": "农学", | |
| "discipline": "作物栽培学与耕作学", | |
| "title": "周年施氮对麦-豆农田土壤养分及土壤微生物特性的影响", | |
| "source": "研究表明,大量施用氮肥能強烈抑制自生固氮菌的生长,且长期單施氮肥能显著增加土壤氨化细菌、硝化细菌等生理菌群数量,但高浓度氮肥可能会降低土壤氨化细菌数量,促进硝化细菌数量的增加,可能会使硝化作用速度过快,增加了氮素淋失的风险。", | |
| "reference": "研究表明,大量施用氮肥能够强烈抑制自生固氮菌的生长,长期单施氮肥可显著增多土壤氨化细菌、硝化细菌等生理菌群的数量,然而高浓度氮肥可能会减少土壤氨化细菌数量,推动硝化细菌数量的增加,这或许会致使硝化作用速度过快,提高了氮素淋失的风险。", | |
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| }, | |
| { | |
| "id": 8627, | |
| "category": "农学", | |
| "discipline": "植物营养学", | |
| "title": "陕西省耕地土壤养分现状与土壤肥力评价", | |
| "source": "陕北高原果园土壤养分含量整体处于中下水平,陕北高原果园土壤自身比较贫瘠,又加上多年来农民对有机肥,磷钾肥使用量过少,因此土壤有机质(SOM)和氮磷钾(NPK)含量严重不足。", | |
| "reference": "陕北高原的果园土壤养分含量总体处于中下水平,该地果园土壤自身较为贫瘠,且多年来农民对有机肥与磷钾肥的使用量过少,致使土壤有机质(SOM)和氮磷钾(NPK)含量严重欠缺。", | |
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| "id": 8633, | |
| "category": "农学", | |
| "discipline": "作物学", | |
| "title": "稻秆不同还田方式对稻麦轮作农田土壤养分、碳库及温室气体排放的影响", | |
| "source": "由于稻秆集中沟埋在麦季时腐解缓慢(李新举,2001;吴俊松,2015),在稻季剩余的秸秆较多,水稻季潮湿的环境更加有利于秸秆腐解(查良玉,2013),秸秆腐解后能够为稻田土壤提供充足的碳源,增加了稻田土壤易氧化有机碳、水溶性有机碳和微生物有机碳含量。", | |
| "reference": "鉴于稻秆集中沟埋于麦季时腐解迟缓(李新举,2001;吴俊松,2015),致使在稻季剩余的秸秆颇多,而水稻季潮湿的环境则更有益于秸秆腐解(查良玉,2013),秸秆腐解后可为稻田土壤提供充裕的碳源,增添了稻田土壤易氧化有机碳、水溶性有机碳以及微生物有机碳含量。", | |
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| { | |
| "id": 8638, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "很多研究认为,生物质炭施入土壤中能够增加土壤固碳并减少温室气体排放(Lehmann,2007b;Aguilar-Chávez et al.,2012;Stewart et al.,2013;Zhang et al,2013a;Li et al,2014b)。", | |
| "reference": "有很多研究认为,生物质炭施加到土壤之中,能够增加土壤固碳,且能减少温室气体排放(Lehmann,2007b;Aguilar-Chávez et al.,2012;Stewart et al.,2013;Zhang et al,2013a;Li et al,2014b)。", | |
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| { | |
| "id": 8644, | |
| "category": "农学", | |
| "discipline": "食品加工与安全", | |
| "title": "油菜素内酯对西甜瓜农药残留降解作用的研究", | |
| "source": "日本学者1968年在树叶中提取出蚊母素,被后人叫做油菜素甾醇类物质。", | |
| "reference": "日本学者于1968年从树叶中提取出的蚊母素,后来被叫作油菜素甾醇类物质。", | |
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| "id": 8648, | |
| "category": "农学", | |
| "discipline": "农业工程", | |
| "title": "基于深度学习的土壤养分预测研究", | |
| "source": "文献采用近红外光谱对土壤理化的8个性质进行了预测。", | |
| "reference": "文献采用近红外光谱对土壤的 8 个理化性质予以了预测。", | |
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| { | |
| "id": 8654, | |
| "category": "农学", | |
| "discipline": "植物营养学", | |
| "title": "还田模式和腐熟剂对玉米秸秆腐解特征及土壤养分含量的影响", | |
| "source": "还有有研究表明,深松耕作处理能够显著提高土壤有机碳含量,增加作物的有效穗数,提高作物产量,而免耕耕作处理降低了穗粒数和千粒重,不利于作物产量的增加(冯倩倩等,2018)。", | |
| "reference": "此外有研究表明,深松耕作处理能显著提高土壤有机碳的含量,使作物的有效穗数增加,让作物产量提高,而免耕耕作处理会降低穗粒数和千粒重,对作物产量的增加不利(冯倩倩等,2018)。", | |
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| { | |
| "id": 8660, | |
| "category": "农学", | |
| "discipline": "农业水土工程", | |
| "title": "不同作物覆盖下农田表层土壤养分空间变异性研究", | |
| "source": "Stacey et al等利用澳大利亚国家土壤场地整理数据集,建立了从1km到大陆范围内的砂土和粘土含量的经验变异函数。", | |
| "reference": "Stacey et al等利用澳大利亚国家土壤场地整理数据集,建立了从1km到大陆范围内的砂土和粘土含量的经验变异函数。", | |
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| "id": 8673, | |
| "category": "农学", | |
| "discipline": "作物学", | |
| "title": "稻秆不同还田方式对稻麦轮作农田土壤养分、碳库及温室气体排放的影响", | |
| "source": "在水稻生长期间,由于埋草沟的蓄水能力较強,在同一时间段内,稻秆集中沟埋还田处理较其他处理的含水量较高。", | |
| "reference": "在水稻生长期间,因埋草沟的蓄水能力很强,在同一时间段里,稻秆集中沟埋还田处理的含水量比其他处理要更高。", | |
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| { | |
| "id": 8681, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "寒地稻草还田对土壤养分与CH_4及N_2O排放的影响", | |
| "source": "因此化学耗氧量也作为有机物含量的指标之一。", | |
| "reference": "因此,化学耗氧量也可作为有机物含量的指标之一。", | |
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| "id": 8685, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "寒地稻草还田对土壤养分与CH_4及N_2O排放的影响", | |
| "source": "在水稻茎钾素积累量上来看,6月29日水稻茎钾素积累量总体表现为PT-SR>RT-SR>RT-SN>PT-SN。", | |
| "reference": "从水稻茎钾素积累量方面来看,6月29日,水稻茎钾素积累量总体呈现出PT-SR>RT-SR>RT-SN>PT-SN的态势。", | |
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| "id": 8687, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "温室气体的采集、测定以及排放通量的计算方法同2.2.6。", | |
| "reference": "温室气体的采集、测定以及排放通量的计算方法与2.2.6相同。", | |
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| "id": 8689, | |
| "category": "农学", | |
| "discipline": "环境科学与工程", | |
| "title": "基于生物炭补偿的土壤养分化学计量平衡研究", | |
| "source": "准一级动力学模型可以更好的反应出可溶性磷的释放过程,该过程主要以物理过程为主,是生物炭中磷酸盐的一个溶解过程。", | |
| "reference": "准一级动力学模型能够更好地反映出可溶性磷的释放过程,此过程主要是以物理过程为主,属于生物炭中磷酸盐的一个溶解过程。", | |
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| "id": 8690, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "寒地稻草还田对土壤养分与CH_4及N_2O排放的影响", | |
| "source": "Samoura的研究表明,旋耕和翻地对策都有助于改进土壤构造。", | |
| "reference": "Samoura的研究显示,旋耕与翻地这两种对策都有利于改善土壤构造。", | |
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| { | |
| "id": 8694, | |
| "category": "农学", | |
| "discipline": "土地资源利用", | |
| "title": "基于农场与田块尺度的土壤养分空间特征识别方法及应用", | |
| "source": "合理的选择一种或几种土壤养分肥力评价的指标可以大大提高评价工作的科学性和准确性。", | |
| "reference": "合理地选择一种或几种土壤养分肥力评价的指标,可以大大提升评价工作的科学性与准确性。", | |
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| { | |
| "id": 8705, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "长汀县耕地土壤养分空间分布及尺度效应", | |
| "source": "由于受有机碳密度和耕地面积的双重影响,长汀县耕地有机碳储量估算受制图尺度影响较大。", | |
| "reference": "因为受到有机碳密度和耕地面积的双重影响,长汀县耕地有机碳储量的估算受制图尺度影响较大。", | |
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| { | |
| "id": 8708, | |
| "category": "农学", | |
| "discipline": "环境科学与工程", | |
| "title": "基于生物炭补偿的土壤养分化学计量平衡研究", | |
| "source": "两种材料生物炭中可溶性磷的释放动力学拟合如下列图所示:采用两种动力学模型对生物炭中可溶性磷的释放进行拟合,拟合曲线见图4-5、4-6,两种动力学方程的拟合的相关参数如表4-2所示。", | |
| "reference": "两种材料生物炭中可溶性磷的释放动力学拟合如下图所示:我们使用两种动力学模型对生物炭中可溶性磷的释放进行了拟合,拟合曲线详见图4-5和图4-6,表4-2列出了两种动力学方程拟合的相关参数。", | |
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| }, | |
| { | |
| "id": 8713, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "秸秆还田减施化肥对农田土壤养分及磷素淋失的影响", | |
| "source": "而农业土壤中,矿物态磷、吸附态磷和土壤溶液中的磷是属于无机态磷,一般占土壤磷库的60%~80%,土壤溶液中的磷是植物吸收的主要来源。", | |
| "reference": "而在农业土壤中,矿物态磷、吸附态磷以及土壤溶液中的磷都属于无机态磷,通常占土壤磷库的60%~80%,土壤溶液中的磷是植物吸收的主要来源。", | |
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| { | |
| "id": 8720, | |
| "category": "农学", | |
| "discipline": "水土保持与荒漠化防治", | |
| "title": "托克托县土壤养分含量分析及高光谱反演研究", | |
| "source": "有效的光谱信息处于低分解尺度,并随分解尺度的增加范围逐渐减少,相关系数原始光谱>对数>一阶微分>二阶微分>倒数。", | |
| "reference": "有效的光谱信息处于低分解尺度,且随着分解尺度的增加,其范围逐渐减小,相关系数表现为原始光谱>对数>一阶微分>二阶微分>倒数。", | |
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| "id": 8763, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "寒地稻草还田对土壤养分与CH_4及N_2O排放的影响", | |
| "source": "目前已有的一些调查研究表明,水稻的甲烷释放是因为在淹水条件下,由于有机物质的分解以及土壤中的硝化反硝化而导致的。", | |
| "reference": "目前已有的一些调查研究表明,水稻的甲烷释放是由于在淹水条件下,有机物质的分解以及土壤中的硝化反硝化作用所导致的。", | |
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| "id": 8765, | |
| "category": "农学", | |
| "discipline": "地图制图学与地理信息工程", | |
| "title": "山东省耕地土壤养分数据库建立及其分异特征分析", | |
| "source": "流水地貌中,河漫滩>洼地>古河床高地>决口扇,这可能是由于氮素本身极易随水流失有关(刘杨,2010)。", | |
| "reference": "在流水地貌中,河漫滩>洼地>古河床高地>决口扇的现象可能与氮素本身易随水流失有关(刘杨,2010)。", | |
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| "id": 8816, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "蚯蚓粪有机肥施用对稻田土壤养分及吸收的影响", | |
| "source": "土壤全磷也和除脲酶及过氧化氢酶活性外的其它指标有显著正相关。", | |
| "reference": "土壤全磷与除脲酶及过氧化氢酶活性外的其他指标均有显著正相关。", | |
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| { | |
| "id": 8845, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "内蒙古西辽河施肥管理区土壤养分空间分布特征及肥力评价与施肥管理", | |
| "source": "在农业生产中,由于不同区域土壤条件、地形特点、气候类型、生物、农业发展水平等因素以及栽培、耕作等管理措施的不同,使得各地区在施肥决策也存在较大的差异。", | |
| "reference": "在农业生产中,因为不同区域的土壤条件、地形特点、气候类型、生物、农业发展水平等因素,以及栽培、耕作等管理措施的不同,致使各地区在施肥决策方面也存在较大的差异。", | |
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| { | |
| "id": 8849, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "在本研究中,我们的假设是生物质炭施用与土壤中之后能够改变土壤养分的有效性,而该效应受到生物质炭和土壤条件的限制。", | |
| "reference": "在本研究中,我们所假设的是,生物质炭施用在土壤中后能够改变土壤养分的有效性,但该效应受到生物质炭以及土壤条件的限制。", | |
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| { | |
| "id": 8856, | |
| "category": "农学", | |
| "discipline": "植物营养学", | |
| "title": "硫肥施用对玉米田土壤养分及根际微生物的影响", | |
| "source": "土壤微生物被认为是一种无处不在的、不可或缺的生态系统组成部分,对于维持养分循环、养分利用效率和生产力等具有重大意义,其中细菌,古细菌和真菌在生态系统功能中发挥关键作用,例如调节有机物分解和土壤养分循环。", | |
| "reference": "土壤微生物被看作是一种无所不在、必不可少的生态系统组成部分,对维持养分循环、养分利用效率以及生产力等具有重要意义,其中细菌、古细菌和真菌在生态系统功能里面发挥关键作用,例如对有机物分解和土壤养分循环进行调节。", | |
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| { | |
| "id": 8858, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "长汀县耕地土壤养分空间分布及尺度效应", | |
| "source": "基于以上研究可以看出,目前国家或区域尺度农田土壤养分估算中大多局限于中小比例大区域的研究,而对于大比例尺小区域的研究相对较小;大多数研究都是从不同行政单元和不同土壤类型来分析土壤养分储量的分布和变化,关于不同土地利用类型方面的分类研究较少;大多没有考虑不同制图尺度土壤数据库所造成的差异。", | |
| "reference": "基于以上研究能够看出,当前在国家或区域尺度的农田土壤养分估算中,多数局限于中小比例大区域的研究,而针对大比例尺小区域的研究相对较少;多数研究是从不同行政单元以及不同土壤类型去分析土壤养分储量的分布和变化,有关不同土地利用类型方面的分类研究则较少;大多并未考虑不同制图尺度土壤数据库所导致的差异。", | |
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| { | |
| "id": 8864, | |
| "category": "农学", | |
| "discipline": "植物营养学", | |
| "title": "陕西省耕地土壤养分现状与土壤肥力评价", | |
| "source": "根据研究表明,该措施对土质粘粒较重和有机质含量较多的土壤效果更明显。", | |
| "reference": "据研究表明,该措施对于土质粘粒较重以及有机质含量较多的土壤,效果更为明显。", | |
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| { | |
| "id": 8868, | |
| "category": "农学", | |
| "discipline": "农艺与种业", | |
| "title": "寒地稻草还田与氮磷钾肥对土壤养分及水稻产量的影响", | |
| "source": "本研究结果表明:稻草还田增大了水稻分蘖、穗粒数,干物质重乃至产量,但也使空瘪粒增多了。", | |
| "reference": "本研究结果表明:稻草还田增加了水稻的分蘖、穗粒数,提高了干物质重与产量,然而也使空瘪粒变多了。", | |
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| "id": 8871, | |
| "category": "农学", | |
| "discipline": "资源利用与植物保护", | |
| "title": "基于网格采样田块尺度土壤养分的时空变异特征", | |
| "source": "研究在2018年土壤表层上,土壤养分含量随种植年限增加的变化规律,并将2018年所测得的数据与2003年的养分数据进行比较和分析。", | |
| "reference": "在2018年的土壤表层上展开研究,分析土壤养分含量随种植年限增加的变化规律,并将2018年所测得的数据与2003年的养分数据加以比较和分析。", | |
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| { | |
| "id": 8876, | |
| "category": "农学", | |
| "discipline": "环境科学与工程", | |
| "title": "基于生物炭补偿的土壤养分化学计量平衡研究", | |
| "source": "并在该制备条件下对于我国各省(市、区)的农业废弃物生物炭进行固碳量及养分含量估算,研究结果如下:(1)通过对两种生物炭的产率进行分析可以发现,两种原材料所制备的生物炭均在300℃时产率最高,分别为43.71%和68.36%,并且随着温度的升高,产率显著下降,且鸡粪炭产率显著高于玉米秸秆生物炭。", | |
| "reference": "并在该制备条件之下,对我国各省(市、区)的农业废弃物生物炭进行固碳量及养分含量的估算,研究结果如下:(1)通过对两种生物炭的产率展开分析能够发现,两种原材料所制备的生物炭皆在300℃时产率最高,分别是43.71%和68.36%,而且随着温度的升高,产率明显下降,并且鸡粪炭产率明显高于玉米秸秆生物炭。", | |
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| "id": 8877, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "沼液施用条件对土壤养分、生态风险与玉米产量的影响", | |
| "source": "其中,盆栽实验中沼液理化性质如下所示:沼液有机质含量为16.97mg/mL,全氮含量为1.92mg/mL;全磷含量为51.04mg/L;化学需氧量为10544.15mg/L。", | |
| "reference": "其中,盆栽实验中沼液的理化性质显示如下:沼液有机质含量为16.97mg/mL,全氮含量是1.92mg/mL;全磷含量为51.04mg/L;化学需氧量为10544.15mg/L。", | |
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| { | |
| "id": 8878, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "从本研究第二、三章的试验结果中看出,生物质炭施入之后增加土壤全氮含量。", | |
| "reference": "依据本研究第二、三章的试验结果可看出,生物质炭施入后会使土壤全氮含量增加。", | |
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| { | |
| "id": 8879, | |
| "category": "农学", | |
| "discipline": "食品加工与安全", | |
| "title": "油菜素内酯对西甜瓜农药残留降解作用的研究", | |
| "source": "结果表明,BR处理可以能够有效抑制西瓜果实中超氧阴离子的产生速率。", | |
| "reference": "结果显示,BR处理可有效抑制西瓜果实中超氧阴离子的产生速率。", | |
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| { | |
| "id": 8882, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "在处理分析模糊C算法较好的分析了引入空间信息的土壤养分数据,本文在养分数据的基础之上,与采样时候所标定东经、北纬等空间信息,改进优化目标函数值并对数据进行标准化研究后做模糊矩阵,以土壤养分数据集分类为目的,根据隶属度使采样点划分到类的范围里。", | |
| "reference": "在处理分析时,模糊C算法对引入空间信息的土壤养分数据分析得较好,本文以养分数据为基础,与采样时所标定的东经、北纬等空间信息相结合,改进优化目标函数值,进行标准化研究后建立模糊矩阵,以达到土壤养分数据集分类的目的,根据隶属度让采样点划入类的范围。", | |
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| "title": "油菜素内酯对西甜瓜农药残留降解作用的研究", | |
| "source": "所以,本研究分析了BR对甜瓜果实中农药残留降解的影响,为水果产品中农药残留降解的研究提供参考。", | |
| "reference": "所以,本研究针对BR对甜瓜果实中农药残留降解的影响予以了分析,能为水果产品中农药残留降解的研究提供参考。", | |
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| "category": "农学", | |
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| "title": "寒地稻草还田对土壤养分与CH_4及N_2O排放的影响", | |
| "source": "在水稻叶的磷含量方面,6月29日水稻叶磷含量总体表现为PT-SR>RT-SR>RT-SN>PT-SN。", | |
| "reference": "从水稻叶的磷含量来看,6月29日水稻叶磷含量总体为PT-SR>RT-SR>RT-SN>PT-SN。", | |
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| "title": "蚯蚓粪有机肥施用对稻田土壤养分及吸收的影响", | |
| "source": "土壤酶作为一项土壤质量指标,其酶活性可以对不同地区土地施肥措施引起的农田环境变化产生迅速反应,广大学者接受已经其活性大小表征土壤肥力质量和土壤健康。", | |
| "reference": "土壤酶作为土壤质量的一项指标,其酶活性可以针对不同地区土地施肥措施引发的农田环境变化做出迅速反应,广大学者已经接受用其活性大小来表征土壤肥力质量与土壤健康。", | |
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| "category": "农学", | |
| "discipline": "资源利用与植物保护", | |
| "title": "基于网格采样田块尺度土壤养分的时空变异特征", | |
| "source": "年变化率是由养分的变化量除以所对应地块土壤的种植年限得出,碱解氮的年变化率在三个种植年限之间无显著差异性,种植10年、14年、16年分别为为1.995、1.294、0.995,呈现出随种植年限的增长,年变化率逐渐降低。", | |
| "reference": "年变化率由养分的变化量除以所对应地块土壤的种植年限计算得出,碱解氮的年变化率在三个种植年限之间不存在显著差异性,种植10年、14年、16年分别为1.995、1.294、0.995,表现为随着种植年限的增加,年变化率逐渐下降。", | |
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| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "MapReduce由Map和Reduce两个主要重要部分组成,主要任务是将大数据集分成小数据集进行并行处理。", | |
| "reference": "MapReduce由Map和Reduce这两个重要的主要部分构成,主要工作是把大数据集拆分为小数据集并进行并行处理。", | |
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| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "沼液施用条件对土壤养分、生态风险与玉米产量的影响", | |
| "source": "因此本试验对两年秋闲期沼液与化肥配施对田间土壤铜、锌以及砷含量的影响进行了研究。", | |
| "reference": "因此,本试验对两年秋闲期沼液与化肥配施对田间土壤中铜、锌及砷含量的影响进行了研究。", | |
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| "id": 8904, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "内蒙古西辽河施肥管理区土壤养分空间分布特征及肥力评价与施肥管理", | |
| "source": "由于土壤养分特异值的存在会影响整体样本的数据分析效果和结果的准确性。", | |
| "reference": "土壤养分特异值的存在会影响整体样本的数据分析效果以及结果的准确性。", | |
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| "id": 8918, | |
| "category": "农学", | |
| "discipline": "农业管理", | |
| "title": "基于ArcGIS的常熟市耕地土壤养分时空变化研究", | |
| "source": "本文对连续时间序列的土壤养分进行分析,可以更加清晰的了解近十年间土壤养分的具体变化过程和演变趋势。", | |
| "reference": "本文对连续时间序列的土壤养分展开分析,以便更加清晰地了解近十年土壤养分的具体变化过程和演变趋势。", | |
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| { | |
| "id": 8919, | |
| "category": "农学", | |
| "discipline": "水土保持与荒漠化防治", | |
| "title": "托克托县土壤养分含量分析及高光谱反演研究", | |
| "source": "在之后的研究中,应进行线性、非线性多种模型进行比较,从多种模型出发寻求土壤养分含量预测的最佳模型。", | |
| "reference": "在之后的研究中,应当针对线性、非线性多种模型展开比较,从多种模型出发寻求土壤养分含量预测的最佳模型。", | |
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| { | |
| "id": 8925, | |
| "category": "农学", | |
| "discipline": "农业资源与环境", | |
| "title": "生物质炭对作物生产力、农田温室气体排放", | |
| "source": "生物质炭中含有少量的易分解态有机物质能够直接作为土壤中酶促反应的底物,或者其中部分生物活性分子能够促进作物生长(Lou et al.,2015)并在短期内促进土壤中酶促反应。", | |
| "reference": "生物质炭中所含的少量易分解态有机物质能够直接作为土壤中酶促反应的底物,或者其中的部分生物活性分子能够促进作物生长(Lou et al.,2015),并在短期内推动土壤中的酶促反应。", | |
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| { | |
| "id": 8930, | |
| "category": "农学", | |
| "discipline": "资源利用与植物保护", | |
| "title": "基于网格采样田块尺度土壤养分的时空变异特征", | |
| "source": "速效钾在种植10年和16年的土壤上,含量的最低值均出现在壤土上,且三个土壤质地对速效钾的影响之间差异不明显;在种植14年内,粉砂壤土上的含量显著高于砂质壤土。", | |
| "reference": "速效钾于种植10年和16年的土壤上,其含量的最低值均在壤土出现,且三种土壤质地对速效钾的影响之间无明显差异;在种植14年里,粉砂壤土上的含量显著高于砂质壤土。", | |
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| { | |
| "id": 8931, | |
| "category": "农学", | |
| "discipline": "农业工程", | |
| "title": "基于深度学习的土壤养分预测研究", | |
| "source": "文献表明了土壤有机质增加可以减少土壤施肥量和灌水量,降低无机肥对生态环境的污染。", | |
| "reference": "文献显示土壤有机质增加能够降低土壤施肥量与灌水量,减少无机肥对生态环境的污染。", | |
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| }, | |
| { | |
| "id": 8933, | |
| "category": "农学", | |
| "discipline": "农业资源利用", | |
| "title": "不同化肥减施模式下稻田土壤养分及微生物群落的变化", | |
| "source": "可见,S+JG处理更有效的激发了土壤微生物活性。", | |
| "reference": "可见,S+JG处理在激发土壤微生物活性方面更为有效。", | |
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| }, | |
| { | |
| "id": 8950, | |
| "category": "农学", | |
| "discipline": "作物学", | |
| "title": "稻秆不同还田方式对稻麦轮作农田土壤养分、碳库及温室气体排放的影响", | |
| "source": "本研究以长江中下游稻麦轮作农田为研究对象,通过探讨稻秆不同还田方式下稻麦轮作农田土壤养分和作物产量的影响,篩选适宜的秸秆还田方式,旨在为该地区制定合理的秸秆还田方式提供理论依据。", | |
| "reference": "本研究将长江中下游稻麦轮作农田作为研究对象,旨在通过探讨稻秆不同还田方式对稻麦轮作农田土壤养分和作物产量的影响,筛选出适宜的秸秆还田方式,为该地区制定合理的秸秆还田方式提供理论依据。", | |
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| }, | |
| { | |
| "id": 8951, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "内蒙古西辽河施肥管理区土壤养分空间分布特征及肥力评价与施肥管理", | |
| "source": "土壤养分空间变异性的预测方法主要有经典统计学方法和地统计学方法,经典统计方法可以对土壤养分等指标进行基本的描述性统计分析,而地统计学方法通常与GIS技术相结合,可以更加全面的对土壤养分进行直观精确的统计分析。", | |
| "reference": "土壤养分空间变异性的预测方式主要为经典统计学方法和地统计学方法,其中经典统计方法可对土壤养分等指标实施基本的描述性统计分析,而地统计学方法一般与GIS技术结合,可以更加全面的对土壤养分进行直观精确的统计分析。", | |
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| { | |
| "id": 8955, | |
| "category": "农学", | |
| "discipline": "环境科学与工程", | |
| "title": "基于生物炭补偿的土壤养分化学计量平衡研究", | |
| "source": "但此时N含量不足,需额外补充氮肥,不同生物炭配施方案中需额外投加氮肥量分别为62.36~162.22kg/ha(50%)、124.79~324.46kg/ha(100%)和187.14~249.61kg/ha(150%)。", | |
| "reference": "但此时N含量欠缺,需要额外添加氮肥,不同生物炭配施方案中需额外投入的氮肥量分别为62.36~162.22kg/ha(50%)、124.79~324.46kg/ha(100%)以及187.14~249.61kg/ha(150%)。", | |
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| "id": 8969, | |
| "category": "农学", | |
| "discipline": "食品加工与安全", | |
| "title": "油菜素内酯对西甜瓜农药残留降解作用的研究", | |
| "source": "0.4mg/L BR喷施高羊茅种子,能显著促进其萌发及生长发育。", | |
| "reference": "以0.4mg/L BR喷施高羊茅种子,能够显著促进其萌发与生长发育。", | |
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| "category": "农学", | |
| "discipline": "植物营养学", | |
| "title": "还田模式和腐熟剂对玉米秸秆腐解特征及土壤养分含量的影响", | |
| "source": "还有研究指出,在秸秆还田前期,土壤产生二氧化碳释放速率显著增加,同时提高了土壤可溶性有机碳、土壤微生物量碳含量(Khalil et al.,2005)。", | |
| "reference": "还有研究指出,在秸秆还田的初期,土壤产生的二氧化碳释放速率明显增加,同时提高了土壤可溶性有机碳以及土壤微生物量碳的含量(Khalil et al.,2005)。", | |
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| { | |
| "id": 8977, | |
| "category": "农学", | |
| "discipline": "农业工程", | |
| "title": "基于深度学习的土壤养分预测研究", | |
| "source": "因此,应该通过合理的方式对研究区进行划分,可以提高模拟和预测的精度和效率。", | |
| "reference": "所以,需通过合理的方式对研究区展开划分,这样能提高模拟和预测的精度与效率。", | |
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| { | |
| "id": 8978, | |
| "category": "农学", | |
| "discipline": "作物栽培学与耕作学 ", | |
| "title": "施肥、耕作和秸秆还田方式对土壤养分及春玉米产量的影响", | |
| "source": "磷在土壤中流动性差(Hinsinger et al.,2011),且限制了作物的生长(Plenet et al.,2000),因此利用耕作方式可以将表土与底土混合,增强土壤对磷的吸附能力。", | |
| "reference": "磷在土壤中的流动性欠佳(Hinsinger et al.,2011),并且限制了作物的生长(Plenet et al.,2000),因此通过耕作方式可以将表土与底土混合,提升土壤对磷的吸附能力。", | |
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| { | |
| "id": 8979, | |
| "category": "农学", | |
| "discipline": "土壤学", | |
| "title": "基于云平台的土壤养分数据挖掘的研究", | |
| "source": "鉴于以上情况,急需处理分析挖掘土壤养分数据的系统和算法来解决此种情形,以此达到农业工作者生产的需求。", | |
| "reference": "鉴于此种情况,迫切需要处理、分析与挖掘土壤养分数据的系统和算法,以解决这一情形,进而达到农业工作者的生产需求。", | |
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