Implementation protocol of scientific investigation and monitoring for permanent plots of agricultural soil animal in China

doi:10.17520/biods.2021265

Biodiv Sci ›› 2022, Vol. 30 ›› Issue (1): 21265. DOI: 10.17520/biods.2021265

Special Issue: 土壤生物与土壤健康

• Technology and Methodology • Previous Articles Next Articles

Implementation protocol of scientific investigation and monitoring for permanent plots of agricultural soil animal in China

Meixiang Gao¹^,², Qilong Liu³, Jiaqi Zhu¹, Boyu Zhao⁴, Jia Du⁴, Donghui Wu⁴^,^*()

1 Department of Geography and Spatial Information Techniques, Ningbo University, Ningbo, Zhejiang 315211
2 Ningbo Universities Collaborative Innovation Center for Land and Marine Spatial Utilization and Governance Research at Ningbo University, Ningbo, Zhejiang 315211
3 Geographical Science College, Harbin Normal University, Harbin 150025
4 Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun 130102

Received:2021-07-03 Accepted:2021-09-29 Online:2022-01-20 Published:2022-01-29
Contact: Donghui Wu

Abstract

Abstract:

Aims: The soil ecosystem includes a lot of animals with representatives from almost all major taxa of terrestrial animals and may stand for one quarter of all currently described biodiversity. Nevertheless, biodiversity loss of soil animals has become a serious problem for agricultural ecosystems globally, especially in China. Though many solutions have been proposed, this problem has not been effectively tackled. Constructing permanent plots and monitoring them long-term has been regarded as an important and effective method for solving the challenge of soil animal biodiversity loss. However, we still know little about the implementation protocol of scientific investigation and monitoring of a permanent plot of agricultural soil animals, until now.

Methods: We propose the implementation protocol for scientific investigation and monitoring of permanent plots of agricultural soil animals in this study. The plot establishment and field investigation design are conducted according to the field protocol of the 50-ha Forest Dynamics Plot on Barro Colorado Island (BCI), Panama. The field investigation and long-term monitoring are carried out according to prior research of forest and farmland utilizing large permanent plots of soil animal in China.

Results: First, we must confirm which scientific questions need to be solved and decide the basic principles to be observed for scientific investigation and monitoring in permanent plots of agricultural soil animals. Eighteen scientific questions have been proposed from a basic theory and practical application standpoint, and four basic principles have been proposed: integrating the needs and ideas of scientific research and agricultural practice, scientific setting and selecting monitoring indices, concerning spatio-temporal heterogeneity and detection probability of monitoring indices, and emphasizing the effects of agricultural productions and human activities. Second, we need to standardize the terminology for long-term investigation and monitoring, such as site, plot, square, sample and specimen. Sites and plots should be selected according to research objectives and study area, and priority should be given to sites that are representative of typical agricultural activities and regional climatic characteristics. Then, the large permanent plot of agricultural soil animal can be established in terms of BCI 50-ha field protocols. Third, focusing on soil animal biodiversity and its effects on agricultural ecosystem health and function, we need to carry out long-term monitoring for four-class and twenty-seven-item scientific indices. Moreover, the field investigation and laboratory experiment should be performed based on a unified and standardized workflow. For field investigation, the working processes include drawing detailed sampling point map, training all investigators, looking for and locating the permanent plot of agricultural soil animals in the field using GPS or other instruments, labeling the sampling points in the permanent plot, and collecting samples. For laboratory experiment, different extracting methods for soil animals should be used according to different taxa characteristics and research objectives. Finally, we need to identify, describe, and preserve specimens scientifically. Researching and developing database and management information system that encompass the characteristics of soil animal are recommended. This process will help with data invoking, checking, analyzing, and mining later.

Conclusion: This study systematically puts forward the implementation protocol of scientific investigation and long-term monitoring of permanent plots of agricultural soil animals. The implementation protocol can be widely applied to almost agricultural ecosystems in China and can be used effectively to investigate and monitor all taxa of soil animals. The results of this study will promote standardized plot construction and network monitoring in China, and globally, as well as provide reliable long-term scientific data support for the assessment and protection of agricultural soil animals in China.

Key words: agriculture ecosystem, soil animal biodiversity, monitoring index of soil animal, monitoring method of soil animal, biodiversity conservation and utilization

Meixiang Gao, Qilong Liu, Jiaqi Zhu, Boyu Zhao, Jia Du, Donghui Wu. Implementation protocol of scientific investigation and monitoring for permanent plots of agricultural soil animal in China[J]. Biodiv Sci, 2022, 30(1): 21265.

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URL: https://www.biodiversity-science.net/EN/10.17520/biods.2021265

https://www.biodiversity-science.net/EN/Y2022/V30/I1/21265

Figures/Tables 7

References 29

[1]	Anderson-Teixeira KJ, Davies SJ, Bennett AC, Gonzalez-Akre EB, Muller-Landau HC, Wright SJ, Abu SK, Almeyda Zambrano AM, Alonso A, Baltzer JL, Basset Y, Bourg NA, Broadbent EN, Brockelman WY, Bunyavejchewin S, Burslem DFRP, Butt N, Cao M, Cardenas D, Chuyong GB, Clay K, Cordell S, Dattaraja HS, Deng XB, Detto M, Du XJ, Duque A, Erikson DL, Ewango CEN, Fischer GA, Fletcher C, Foster RB, Giardina CP, Gilbert GS, Gunatilleke N, Gunatilleke S, Hao ZQ, Hargrove WW, Hart TB, Hau BCH, He FL, Hoffman FM, Howe RW, Hubbell SP, Inman-Narahari FM, Jansen PA, Jiang MX, Johnson DJ, Kanzaki M, Kassim AR, Kenfack D, Kibet S, Kinnaird MF, Korte L, Kral K, Kumar J, Larson AJ, Li YD, Li XK, Liu SR, Lum SKY, Lutz JA, Ma KP, Maddalena DM, Makana JR, Malhi Y, Marthews T, Mat Serudin R, McMahon SM, McShea WJ, Memiaghe HR, Mi XC, Mizuno T, Morecroft M, Myers JA, Novotny V, de Oliveira AA, Ong PS, Orwig DA, Ostertag R, den Ouden J, Parker GG, Phillips RP, Sack L, Sainge MN, Sang WG, Sri-Ngernyuang K, Sukumar R, Sun IF, Sungpalee W, Suresh HS, Tan S, Thomas SC, Thomas DW, Thompson J, Turner BL, Uriarte M, Valencia R, Vallejo MI, Vicentini A, Vrška T, Wang XH, Wang XG, Weiblen G, Wolf A, Xu H, Yap S, Zimmerman J (2015) CTFS-ForestGEO: A worldwide network monitoring forests in an era of global change. Global Change Biology, 21, 528-549.
[2]	Bahram M, Kohout P, Anslan S, Harend H, Abarenkov K, Tedersoo L (2015) Stochastic distribution of small soil eukaryotes resulting from high dispersal and drift in a local environment. The ISME Journal, 10, 885-896. DOI URL
[3]	Bandeira FO, Alves PRL, Hennig TB, Schiehl A, Cardoso EJBN, Baretta D (2020) Toxicity of imidacloprid to the earthworm Eisenia andrei and collembolan Folsomia candida in three contrasting tropical soils. Journal of Soils and Sediments, 20, 1997-2007. DOI URL
[4]	Bardgett RD, van der Putten WH (2014) Belowground biodiversity and ecosystem functioning. Nature, 515, 505- 511. DOI URL
[5]	Beaumelle L, Thouvenot L, Hines J, Jochum M, Eisenhauer N, Phillips HRP (2021) Soil fauna diversity and chemical stressors: A review of knowledge gaps and roadmap for future research. Ecography, 44, 845-859. DOI URL
[6]	Condit R (1995) Research in large, long-term tropical forest plots. Trends in Ecology & Evolution, 10, 18-22. DOI URL
[7]	Dennis P, Arndorfer M, Balázs K, Bailey D, Boller B, Bunce RGH, Centeri C, Orporaal A, Cuming D, Deconchat M, Dramstad W, Elyakime B, Falusi E, Fjellstad W, Fraser MD, Freyer B, Friedel JK, Geijzendorffer I, Jongman R, Kainz M, Marcos GM, Gomiero T, Grausgruber-Gröger S, Herzog F, Hofer G, Jeanneret P, Kelemen E, Kölliker R, Moakes SR, Nicholas P, Paoletti MG, Podmaniczky L, Pointereau P, Sarthou JP, Siebrecht N, Sommaggio D, Stoyanova SD, Teufelbauer N, Viaggi D, Vialatte A, Walter T, Widmer F, Wolfrum S (2009) Conceptual foundations for biodiversity indicator selection for organic and low-input farming systems. Indicators for biodiversity in organic and low-input farming systems. https://cordis.europa.eu/project/id/227161/reporting.
[8]	Gao MX, Cheng SS, Ni JP, Lin L, Lu TY, Wu DH (2017) Negative spatial and coexistence patterns and species associations are uncommon for carrion beetles (Coleoptera: Silphidae) at a small scale. European Journal of Soil Biology, 83, 52-57. DOI URL
[9]	Gao MX, Guo YX, Liu J, Liu JW, Adl S, Wu DH, Lu TY (2021) Contrasting beta diversity of spiders, carabids, and ants at local and regional scales in a black soil region, Northeast China. Soil Ecology Letters, 3, 103-114. DOI URL
[10]	Gao MX, Sun X, Qiao ZH, Hou HY, Lu TY, Wu DH, Jin GZ (2018) Distinct patterns suggest that assembly processes differ for dominant arthropods in above-ground and below- ground ecosystems. Pedobiologia, 69, 17-28. DOI URL
[11]	Gao MX, Zhang C, Qiao ZH, Hou HY, Jin GZ, Lu TY, Wu DH (2018a) Metacommunity patterns of ground-beetle assemblages in two mixed broad-leaved Korean pine (Pinus koraiensis) forests in the Xiao Xing’an Mountains. Acta Ecologica Sinica, 38, 5636-5648. (in Chinese with English abstract)
	[ 高梅香, 张超, 乔志宏, 侯宏宇, 金光泽, 卢廷玉, 吴东辉 (2018a) 小兴安岭阔叶红松林地表甲虫Metacommunity格局. 生态学报, 38, 5636-5648.]
[12]	Gao MX, Zhu JY, Ni JP, Li JK, Lin L, Wu DH (2018b) Beta diversities of ground-beetle assemblages in two broad-leaved Korean pine (Pinus koraiensis) mixed forests in Xiaoxing’an Mountains. Acta Ecologica Sinica, 38, 457-463. (in Chinese with English abstract)
	[ 高梅香, 朱纪元, 倪娟平, 李景科, 林琳, 吴东辉 (2018b) 小兴安岭阔叶红松林地表甲虫Beta多样性. 生态学报, 38, 457-463.]
[13]	Geisen S, Wall DH, van der Putten WH (2019) Challenges and opportunities for soil biodiversity in the anthropocene. Current Biology, 29, R1036-R1044.
[14]	Guo YX, Gao MX, Liu J, Zaitsev AS, Wu DH (2019) Disentangling the drivers of ground-dwelling macro-arthropod metacommunity structure at two different spatial scales. Soil Biology and Biochemistry, 130, 55-62. DOI URL
[15]	Liu J, Gao MX, Ma YL, Sun X, Zhu XY, Adl S, Wu DH (2019) Spatial and environmental factors are minor structuring forces in a soil Collembola metacommunity in a maize agroecosystem. Pedobiologia, 76, 150572. DOI URL
[16]	Liu J, Gao MX, Wu DH (2017) Characteristics of ground- dwelling soil macro-arthropod communities in a biodiversity monitoring plot of black soil cropland, Northeastern China. Chinese Journal of Applied Ecology, 28, 3965-3975. (in Chinese with English abstract)
	[ 刘洁, 高梅香, 吴东辉 (2017) 基于黑土农田生物多样性监测样地的地表大型节肢动物群落特征. 应用生态学报, 28, 3965-3975.]
[17]	Ma KP (2008) Large scale permanent plots: Important platform for long term research on biodiversity in forest ecosystem. Journal of Plant Ecology (Chinese Version), 32, 237. (in Chinese)
	[ 马克平 (2008) 大型固定样地: 森林生物多样性定位研究的平台. 植物生态学报, 32, 237.] DOI
[18]	Ma KP (2011) Assessing progress of biodiversity conservation with monitoring approach. Biodiversity Science, 19, 125-126. (in Chinese)
	[ 马克平 (2011) 监测是评估生物多样性保护进展的有效途径. 生物多样性, 19, 125-126.] DOI
[19]	Ma KP (2015) Biodiversity monitoring in China: From CForBio to Sino BON. Biodiversity Science, 23, 1-2. (in Chinese) DOI URL
	[ 马克平 (2015) 中国生物多样性监测网络建设: 从CForBio到Sino BON. 生物多样性, 23, 1-2.] DOI
[20]	Ma KP, Xu XH (2020) Chinese Forest Biodiversity Monitoring Network well developed for community assembly studies. Scientia Sinica Vitae, 50, 359-361. (in Chinese) DOI URL
	[ 马克平, 徐学红 (2020) 中国森林生物多样性监测网络有力支撑生物群落维持机制研究. 中国科学: 生命科学, 50, 359-361.]
[21]	Ma KP, Zhu M, Ji LQ, Ma JC, Guo QH, Ouyang ZY, Zhu L (2018) Establishing China infrastructure for big biodiversity data. Bulletin of Chinese Academy of Sciences, 33, 838-845. (in Chinese with English abstract)
	[ 马克平, 朱敏, 纪力强, 马俊才, 郭庆华, 欧阳志云, 朱丽 (2018) 中国生物多样性大数据平台建设. 中国科学院院刊, 33, 838-845.]
[22]	Marsden C, Martin-Chave A, Cortet J, Hedde M, Capowiez Y (2020) How agroforestry systems influence soil fauna and their functions-A review. Plant and Soil, 453, 29-44. DOI
[23]	Mcinga S, Muzangwa L, Janhi K, Mnkeni PNS (2020) Conservation agriculture practices can improve earthworm species richness and abundance in the semi-arid climate of eastern cape, South Africa. Agriculture, 10, 1-12. DOI URL
[24]	Pan KW, Zhang L, Shao YH, Fu SL (2016) Thematic monitoring network of soil fauna diversity in China: Exploring the mystery of soils. Biodiversity Science, 24, 1234-1239. (in Chinese with English abstract) DOI URL
	[ 潘开文, 张林, 邵元虎, 傅声雷 (2016) 中国土壤动物多样性监测: 探知土壤中的奥秘. 生物多样性, 24, 1234-1239.] DOI
[25]	Sun X, Li Q, Yao HF, Liu MQ, Wu DH, Zhu D, Zhu YG (2021) Soil fauna and soil health. Acta Pedologica Sinica, doi: 10.11766/trxb202012290717. (in Chinese with English abstract) DOI
	[ 孙新, 李琪, 姚海凤, 刘满强, 吴东辉, 朱冬, 朱永官 (2021) 土壤动物与土壤健康. 土壤学报. doi: 10.11766/trxb202012290717.] DOI
[26]	Wan HW, Pan QM, Bai YF (2013) China grassland biodiversity monitoring network: Indicators and implementation plan. Biodiversity Science, 21, 639-650. (in Chinese with English abstract) DOI URL
	[ 万宏伟, 潘庆民, 白永飞 (2013) 中国草地生物多样性监测网络的指标体系及实施方案. 生物多样性, 21, 639-650.] DOI
[27]	Xu H, Li YD, Lin MX, Wu JH, Luo TS, Zhou Z, Chen DX, Yang H, Li GJ, Liu SR (2015) Community characteristics of a 60 ha dynamics plot in the tropical montane rain forest in Jianfengling, Hainan Island. Biodiversity Science, 23, 192-201. (in Chinese with English abstract) DOI URL
	[ 许涵, 李意德, 林明献, 吴建辉, 骆土寿, 周璋, 陈德祥, 杨怀, 李广建, 刘世荣 (2015) 海南尖峰岭热带山地雨林60 ha动态监测样地群落结构特征. 生物多样性, 23, 192-201.] DOI
[28]	Xu ZP, Shao ZT, Zhu XJ, Wang F, Wang YY, Xiao M, Ma KP (2019) Big data portal development in agrobiodiversity: Current research and future outlooks. Journal of Agricultural Big Data, 1, 76-87. (in Chinese with English abstract)
	[ 许哲平, 邵曾婷, 朱学军, 王昉, 王媛媛, 肖曼, 马克平 (2019) 农业生物多样性大数据平台建设研究和展望. 农业大数据学报, 1, 76-87.]
[29]	Zhang WX, Shen ZF, Shao YH, Shi LL, Liu SJ, Shi NN, Fu SL (2020) Soil biota and sustainable agriculture: A review. Acta Ecologica Sinica, 40, 3183-3206. (in Chinese with English abstract)
	[ 张卫信, 申智锋, 邵元虎, 时雷雷, 刘胜杰, 史楠楠, 傅声雷 (2020) 土壤生物与可持续农业研究进展. 生态学报, 40, 3183-3206.]

区域 Area	空间坐标 Space coordinates	样地名称 Plot name	地点 Location	土壤类型 Soil type	耕作模式 Farming mode
东北平原 Northeast Plain	44°52° N, 125°72° E	德惠黑土农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Black Soil Farmland in Dehui	吉林省德惠市 Dehui City, Jilin Province	黑土 Black soil	旱地, 玉米 Dry land, corn
华北平原 North China Plain	34°30° N, 115°35° E	商丘潮土农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Fluvo-aquic Soil Farmland in Shangqiu	河南省商丘市 Shangqiu City, Henan Province	潮土 Fluvo-aquic soil	旱地, 小麦-玉米轮作 Dry land, wheat-corn rotation
长江中下游平原 The plains of the middle and lower reaches of the Yangtze River	29°76° N, 121°56° E	宁波黄壤农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Yellow Soil Farmland in Ningbo	浙江省宁波市 Ningbo City, Zhejiang Province	黄壤 Yellow soil	小麦-水稻轮作 Wheat-rice rotation
珠江三角洲 Pearl River Delta	23°18° N, 114°48° E	惠州红壤农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Red Soil Farmland in Huizhou	广东省惠州市 Huizhou City, Guangdong Province	红壤 Red soil	小麦-水稻轮作 Wheat-rice rotation

区域 Area	空间坐标 Space coordinates	样地名称 Plot name	地点 Location	土壤类型 Soil type	耕作模式 Farming mode
东北平原 Northeast Plain	44°52° N, 125°72° E	德惠黑土农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Black Soil Farmland in Dehui	吉林省德惠市 Dehui City, Jilin Province	黑土 Black soil	旱地, 玉米 Dry land, corn
华北平原 North China Plain	34°30° N, 115°35° E	商丘潮土农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Fluvo-aquic Soil Farmland in Shangqiu	河南省商丘市 Shangqiu City, Henan Province	潮土 Fluvo-aquic soil	旱地, 小麦-玉米轮作 Dry land, wheat-corn rotation
长江中下游平原 The plains of the middle and lower reaches of the Yangtze River	29°76° N, 121°56° E	宁波黄壤农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Yellow Soil Farmland in Ningbo	浙江省宁波市 Ningbo City, Zhejiang Province	黄壤 Yellow soil	小麦-水稻轮作 Wheat-rice rotation
珠江三角洲 Pearl River Delta	23°18° N, 114°48° E	惠州红壤农田土壤动物大型固定样地 Large Permanent Plot of Soil Animal in Red Soil Farmland in Huizhou	广东省惠州市 Huizhou City, Guangdong Province	红壤 Red soil	小麦-水稻轮作 Wheat-rice rotation

类别 Type	序号 No.	监测对象 Monitoring object	监测指标 Index	获取途径 Acquiring source	调查必要性 Necessity of investigation
I	1	土壤动物群落物种组成 Species composition of soil animal community	土壤动物物种名录 Species list of soil animal community	野外取样和室内分析 Field sampling and laboratory analysis	必须 Essential
	2	土壤动物多度 Soil animal abundance	生物量和密度 Biomass and density	野外取样和室内分析 Field sampling and laboratory analysis	必须 Essential
	3	物种功能性状 Species functional trait	体长、体宽、翅长等 Length, width, wing length, etc. (依据不同类群特征确定 Selecting according to the characteristics of target group)	野外取样、室内分析、文献检索 Field sampling, laboratory analysis and literature retrieval	必须 Essential
	4	多样性 Diversity	α多样性、β多样性、γ多样性、物种丰富度、物种均匀度、功能多样性、遗传多样性 α diversity, β diversity, γ diversity, species richness, species evenness, functional diversity and genetic diversity	计算分析 Calculation and analysis	必须 Essential
II	5	微生物多样性 Microbial diversity	分类操作单元 Operational taxonomic units (OTUs)	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
	6	啮齿动物多样性 Rodent diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外调查和社会调研 Field sampling and social investigation	可选 Selectable
	7	植株上的昆虫多样性 Insect diversity in plant	物种数、个体数、物种多样性指数、功能性状指数等 Species richness, individual, species diversity index, functional trait index, etc.	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
	8	鸟类多样性 Bird diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
	9	蝴蝶多样性 Butterfly diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样, 室内分析 Field sampling and laboratory analysis	可选 Selectable
	10	授粉者多样性 Pollinator diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样, 室内分析 Field sampling and laboratory analysis	可选 Selectable
	11	害虫多样性 Pest diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
III	12	土壤碳、氮、磷储量 Carbon, nitrogen and phosphorus reserves in soil	土壤碳、氮、磷含量 Soil carbon, nitrogen and phosphorus content	野外取样和室内分析 Field sampling and laboratory analysis	必须 Essential
	13	土壤养分 Soil nutrient	全氮、全磷、全钾、速效氮、速效磷、速效钾、pH等 Total N, total P, total K, available N, available P, available K, soil pH, etc.	野外取样、室内分析、台站共享、无人机遥感等 Field sampling, laboratory analysis, data share by ecological station, unmanned aerial remote sensing, etc.	必须 Essential
	14	土壤微量元素和重金属元素 Trace element and heavy metal element in soil	全锰、有效锰、全锌、有效锌、全铜、有效铜、全铁、有效铁等 Total Mn, available Mn, total Zn, available Zn, total Cu, available Cu, total Fe, available Fe, etc.	野外取样、室内分析、台站共享等 Field sampling, laboratory analysis, data share by ecological station, etc.	可选 Selectable
	15	土壤物理性质 Soil physical property	土壤类型、质地、孔隙度、含水量、容重、机械组成、土层深度等 Soil type, texture, porosity, water content, bulk density, mechanical composition, soil depth, etc.	野外取样、室内分析、台站共享、无人机遥感等 Field sampling, laboratory analysis, data share by ecological station, unmanned aerial remote sensing, etc.	必须 Essential
	16	土壤速效微量元素 Soil available trace element	有效铁、有效铜、有效锰、有效锌等 Available Fe, available Cu, available Mn, available Zn, etc.	野外取样、室内分析、台站共享等 Field sampling, laboratory analysis, data share by ecological station, etc.	可选 Selectable
	17	土壤可溶性盐 Soil soluble salt	碳酸根、重碳酸根、硫酸根、氯根、钙离子、镁离子、钾离子、钠离子、全盐量、电导率等 Carbonate, bicarbonate, sulfate radical, chloride, calcium ion, magnesium ion, potassium ion, sodium ion, total salt content, conductivity, etc.	野外取样、室内分析、台站共享等 Field sampling, laboratory analysis, data share by ecological station, etc.	可选 Selectable
	18	农作物基本要素 Basic element of crop	作物种类、名称、品种、播种面积、单产、总产、产值、根部生物量、农田的复种指数、轮作体系等 Crop type, name, variety, sown area, yield, total yield, production value, root biomass, multiple cropping index of farmland, rotation system, etc.	野外取样、室内分析、台站共享, 无人机遥感等 Field sampling, laboratory analysis, data share by ecological station, unmanned aerial remote sensing, etc.	必须 Essential
	19	空间坐标 Space coordinates	样地的空间坐标、样品的空间坐标 Space coordinates of the site, space coordinates of the sample	野外测量 Field survey	必须 Essential
	20	地形因素 Topographic factor	海拔、坡向、坡度、地表起伏度等 Elevation, aspect, slope, relief degree of land surface, etc.	现场勘测和DEM数据计算获得 Site survey and calculation from DEM data	必须 Essential
	21	土地利用 Land use	土地利用类型、强度、历史等 Land use type, intensity, history, etc.	遥感、社会调查、文献检索 Remote sensing, social survey and document retrieval	必须 Essential
	22	景观因素 Landscape factor	斑块面积、斑块密度、景观分离指数、Shannon多样性指数 Patch area, patch density, landscape separation index and Shannon’s diversity index	遥感 Remote sensing	可选 Selectable
	23	地史进化因素 Geographical evolution factor	地质历史和进化历史 Geological and evolutionary history	文献检索和谱系分析 Document retrieval and phylogenetic analysis	可选 Selectable
IV	24	社会经济因素 Socioeconomic factor	人口数量、生活来源、人均收入、学校数量、人口老龄化指标等 Population size, source of income, per capita income, no. of schools, population aging indicators, etc.	社会调研、年鉴统计、资料检索 Social investigation, statistical yearbook and document retrieval	必须 Essential
	25	肥料投入情况 Fertilizer inputs	施用肥料名称、作物生育时期、施用日期、施用方式、施用量、含氮量、含磷量、含钾量等 Name of fertilizer, crop growth period, application date, application method, application amount, nitrogen content, phosphorus content, potassium content, etc.	野外采样和台站共享 Field sampling and data share by ecological station	必须 Essential
	26	农药、除草剂、生长剂投入情况 Inputs of pesticide, herbicide, growth promoter	施用药剂名称、主要有效成分、施用日期、施用量, 施用方式等 Drug name, main active ingredient, application date, application amount, application method, etc.	野外采样和台站共享 Field sampling and data share by ecological station	必须 Essential
	27	灌溉制度 Irrigation system	灌溉时间、作物生育期、灌溉水源、灌溉方式、灌溉水量等 Irrigation time, crop growth period, irrigation water source, irrigation method, irrigation water volume, etc.	野外采样, 台站共享 Field sampling and data share by ecological station	必须 Essential

类别 Type	序号 No.	监测对象 Monitoring object	监测指标 Index	获取途径 Acquiring source	调查必要性 Necessity of investigation
I	1	土壤动物群落物种组成 Species composition of soil animal community	土壤动物物种名录 Species list of soil animal community	野外取样和室内分析 Field sampling and laboratory analysis	必须 Essential
	2	土壤动物多度 Soil animal abundance	生物量和密度 Biomass and density	野外取样和室内分析 Field sampling and laboratory analysis	必须 Essential
	3	物种功能性状 Species functional trait	体长、体宽、翅长等 Length, width, wing length, etc. (依据不同类群特征确定 Selecting according to the characteristics of target group)	野外取样、室内分析、文献检索 Field sampling, laboratory analysis and literature retrieval	必须 Essential
	4	多样性 Diversity	α多样性、β多样性、γ多样性、物种丰富度、物种均匀度、功能多样性、遗传多样性 α diversity, β diversity, γ diversity, species richness, species evenness, functional diversity and genetic diversity	计算分析 Calculation and analysis	必须 Essential
II	5	微生物多样性 Microbial diversity	分类操作单元 Operational taxonomic units (OTUs)	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
	6	啮齿动物多样性 Rodent diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外调查和社会调研 Field sampling and social investigation	可选 Selectable
	7	植株上的昆虫多样性 Insect diversity in plant	物种数、个体数、物种多样性指数、功能性状指数等 Species richness, individual, species diversity index, functional trait index, etc.	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
	8	鸟类多样性 Bird diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
	9	蝴蝶多样性 Butterfly diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样, 室内分析 Field sampling and laboratory analysis	可选 Selectable
	10	授粉者多样性 Pollinator diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样, 室内分析 Field sampling and laboratory analysis	可选 Selectable
	11	害虫多样性 Pest diversity	物种数、个体数、生物量、活动时间、物种多样性指数、功能性状指数等 Species richness, individual, biomass, activity time, species diversity index, functional trait index, etc.	野外取样和室内分析 Field sampling and laboratory analysis	可选 Selectable
III	12	土壤碳、氮、磷储量 Carbon, nitrogen and phosphorus reserves in soil	土壤碳、氮、磷含量 Soil carbon, nitrogen and phosphorus content	野外取样和室内分析 Field sampling and laboratory analysis	必须 Essential
	13	土壤养分 Soil nutrient	全氮、全磷、全钾、速效氮、速效磷、速效钾、pH等 Total N, total P, total K, available N, available P, available K, soil pH, etc.	野外取样、室内分析、台站共享、无人机遥感等 Field sampling, laboratory analysis, data share by ecological station, unmanned aerial remote sensing, etc.	必须 Essential
	14	土壤微量元素和重金属元素 Trace element and heavy metal element in soil	全锰、有效锰、全锌、有效锌、全铜、有效铜、全铁、有效铁等 Total Mn, available Mn, total Zn, available Zn, total Cu, available Cu, total Fe, available Fe, etc.	野外取样、室内分析、台站共享等 Field sampling, laboratory analysis, data share by ecological station, etc.	可选 Selectable
	15	土壤物理性质 Soil physical property	土壤类型、质地、孔隙度、含水量、容重、机械组成、土层深度等 Soil type, texture, porosity, water content, bulk density, mechanical composition, soil depth, etc.	野外取样、室内分析、台站共享、无人机遥感等 Field sampling, laboratory analysis, data share by ecological station, unmanned aerial remote sensing, etc.	必须 Essential
	16	土壤速效微量元素 Soil available trace element	有效铁、有效铜、有效锰、有效锌等 Available Fe, available Cu, available Mn, available Zn, etc.	野外取样、室内分析、台站共享等 Field sampling, laboratory analysis, data share by ecological station, etc.	可选 Selectable
	17	土壤可溶性盐 Soil soluble salt	碳酸根、重碳酸根、硫酸根、氯根、钙离子、镁离子、钾离子、钠离子、全盐量、电导率等 Carbonate, bicarbonate, sulfate radical, chloride, calcium ion, magnesium ion, potassium ion, sodium ion, total salt content, conductivity, etc.	野外取样、室内分析、台站共享等 Field sampling, laboratory analysis, data share by ecological station, etc.	可选 Selectable
	18	农作物基本要素 Basic element of crop	作物种类、名称、品种、播种面积、单产、总产、产值、根部生物量、农田的复种指数、轮作体系等 Crop type, name, variety, sown area, yield, total yield, production value, root biomass, multiple cropping index of farmland, rotation system, etc.	野外取样、室内分析、台站共享, 无人机遥感等 Field sampling, laboratory analysis, data share by ecological station, unmanned aerial remote sensing, etc.	必须 Essential
	19	空间坐标 Space coordinates	样地的空间坐标、样品的空间坐标 Space coordinates of the site, space coordinates of the sample	野外测量 Field survey	必须 Essential
	20	地形因素 Topographic factor	海拔、坡向、坡度、地表起伏度等 Elevation, aspect, slope, relief degree of land surface, etc.	现场勘测和DEM数据计算获得 Site survey and calculation from DEM data	必须 Essential
	21	土地利用 Land use	土地利用类型、强度、历史等 Land use type, intensity, history, etc.	遥感、社会调查、文献检索 Remote sensing, social survey and document retrieval	必须 Essential
	22	景观因素 Landscape factor	斑块面积、斑块密度、景观分离指数、Shannon多样性指数 Patch area, patch density, landscape separation index and Shannon’s diversity index	遥感 Remote sensing	可选 Selectable
	23	地史进化因素 Geographical evolution factor	地质历史和进化历史 Geological and evolutionary history	文献检索和谱系分析 Document retrieval and phylogenetic analysis	可选 Selectable
IV	24	社会经济因素 Socioeconomic factor	人口数量、生活来源、人均收入、学校数量、人口老龄化指标等 Population size, source of income, per capita income, no. of schools, population aging indicators, etc.	社会调研、年鉴统计、资料检索 Social investigation, statistical yearbook and document retrieval	必须 Essential
	25	肥料投入情况 Fertilizer inputs	施用肥料名称、作物生育时期、施用日期、施用方式、施用量、含氮量、含磷量、含钾量等 Name of fertilizer, crop growth period, application date, application method, application amount, nitrogen content, phosphorus content, potassium content, etc.	野外采样和台站共享 Field sampling and data share by ecological station	必须 Essential
	26	农药、除草剂、生长剂投入情况 Inputs of pesticide, herbicide, growth promoter	施用药剂名称、主要有效成分、施用日期、施用量, 施用方式等 Drug name, main active ingredient, application date, application amount, application method, etc.	野外采样和台站共享 Field sampling and data share by ecological station	必须 Essential
	27	灌溉制度 Irrigation system	灌溉时间、作物生育期、灌溉水源、灌溉方式、灌溉水量等 Irrigation time, crop growth period, irrigation water source, irrigation method, irrigation water volume, etc.	野外采样, 台站共享 Field sampling and data share by ecological station	必须 Essential

Implementation protocol of scientific investigation and monitoring for permanent plots of agricultural soil animal in China

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