GEE数据集:gNATSGO(网格化国家土壤调查地理数据库)更新

2024-09-12 11:28:06 浏览数 (3)

简介

gNATSGO(网格化国家土壤调查地理数据库)

由于图像收集的范围和规模,该数据集将分批更新。 在采集和测试过程中,这些数据集将主要在内部人员专用数据集中提供。 一旦所有栅格集合都被采集,社区目录的所有用户都可以使用这些数据集。

数据集说明

gNATSGO(网格化国家土壤调查地理数据库)数据库是一个综合数据库,完整覆盖了美国所有地区和岛屿领土的最佳可用土壤信息。 本数据集仅提供栅格数据。 由于数据的原始格式为专有格式,因此源 COG 数据来源于 Planetary Computer STAC 目录。 gNATSGO 数据库由三个来源的数据组合而成:土壤调查地理数据库 (SSURGO)、州土壤地理数据库 (STATSGO2) 和栅格土壤调查数据库 (RSS)。 SSURGO 是 USDA-NRCS 土壤与植物科学部 (SPSD) 的旗舰土壤数据库,拥有 100 多年经实地验证的详细土壤制图数据。 SSURGO 包含美国 90% 以上地区和岛屿领土的土壤信息,但仍有未绘制地图的土地。 STATSGO2 是一个普通土壤地图,包含美国所有地区和岛屿领土的土壤数据,但数据不如 SSURGO 数据详细。 栅格土壤调查(RSS)是利用先进的数字土壤制图方法开发的下一代土壤调查数据库。 gNATSGO 数据库主要由 SSURGO 数据组成,STATSGO2 数据用于填补空白。 在合并 SSURGO 和 STATSGO2 数据后,RSS 被并入 gNATSGO。 目前,RSS 的范围相对有限,但预计在未来几年会有所增加。 要使用 mukey 栅格资产中包含的地图单位值,您需要连接到 gNATSGO 表集合中表示为 "项 "的表。 许多项目的常用值已在其他栅格资产中编码。

空间信息

Titles

STAC Key

Roles

Description

Aws0_5

aws0_5

Data

Available water storage estimate (AWS) in a standard zone 1 (0-5 cm depth), expressed in mm. The volume of plant available water that the soil can store in this layer based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws0_20

aws0_20

Data

Available water storage estimate (AWS) in standard zone 2 (0-20 cm depth), expressed in mm. The volume of plant available water that the soil can store in this zone based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws0_30

aws0_30

Data

Available water storage estimate (AWS) in standard zone 3 (0-30 cm depth), expressed in mm. The volume of plant available water that the soil can store in this zone based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws0_100

aws0_100

Data

Available water storage estimate (AWS) in standard zone 4 (0-100 cm depth), expressed in mm. The volume of plant available water that the soil can store in this zone based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws0_150

aws0_150

Data

Available water storage estimate (AWS) in standard zone 5 (0-150 cm depth), expressed in mm. The volume of plant available water that the soil can store in this zone based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws0_999

aws0_999

Data

Available water storage estimate (AWS) in total soil profile (0 cm to the reported depth of the soil profile), expressed in mm. The volume of plant available water that the soil can store in this layer based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws5_20

aws5_20

Data

Available water storage estimate (AWS) in standard layer 2 (5-20 cm depth), expressed in mm. The volume of plant available water that the soil can store in this layer based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws20_50

aws20_50

Data

Available water storage estimate (AWS) in standard layer 3 (20-50 cm depth), expressed in mm. The volume of plant available water that the soil can store in this layer based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws50_100

aws50_100

Data

Available water storage estimate (AWS) in standard layer 4 (50-100 cm depth), expressed in mm. The volume of plant available water that the soil can store in this layer based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws100_150

aws100_150

Data

Available water storage estimate (AWS) in standard layer 5 (100-150 cm depth), expressed in mm. The volume of plant available water that the soil can store in this layer based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Aws150_999

aws150_999

Data

Available water storage estimate (AWS) in standard layer 6 (150 cm to the reported depth of the soil profile), expressed in mm. The volume of plant available water that the soil can store in this layer based on all map unit components (weighted average). NULL values are presented where data are incomplete or not available.

Soc0_5

soc0_5

Data

Soil organic carbon stock estimate (SOC) in standard zone 1 (0-5 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter to a depth of 5 cm. NULL values are presented where data are incomplete or not available.

Soc0_20

soc0_20

Data

Soil organic carbon stock estimate (SOC) in standard zone 2 (0-20 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter to a depth of 20 cm. NULL values are presented where data are incomplete or not available.

Soc0_30

soc0_30

Data

Soil organic carbon stock estimate (SOC) in standard zone 3 (0-30 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter to a depth of 30 cm. NULL values are presented where data are incomplete or not available.

Soc0_100

soc0_100

Data

Soil organic carbon stock estimate (SOC) in a standard zone (0-100 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter to a depth of 100 cm. NULL values are presented where data are incomplete or not available.

Soc0_150

soc0_150

Data

Soil organic carbon stock estimate (SOC) in a standard zone (0-150 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter to a depth of 150 cm. NULL values are presented where data are incomplete or not available.

Soc0_999

soc0_999

Data

Soil organic carbon stock estimate (SOC) in a standard zone (0-999 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter to a depth of 999 cm. NULL values are presented where data are incomplete or not available.

Soc100_150

soc100_150

Data

Soil organic carbon stock estimate (SOC) in a standard zone (100-150 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter between 100 and 150 cm depth. NULL values are presented where data are incomplete or not available.

Soc150_999

soc150_999

Data

Soil organic carbon stock estimate (SOC) in a standard zone (150-999 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter between 150 and 999 cm depth. NULL values are presented where data are incomplete or not available.

Soc20_50

soc20_50

Data

Soil organic carbon stock estimate (SOC) in a standard zone (20-50 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter between 20 and 50 cm depth. NULL values are presented where data are incomplete or not available.

Soc50_100

soc50_100

Data

Soil organic carbon stock estimate (SOC) in a standard zone (50-100 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter between 50 and 100 cm depth. NULL values are presented where data are incomplete or not available.

Soc5_20

soc5_20

Data

Soil organic carbon stock estimate (SOC) in a standard zone (5-20 cm depth). The concentration of organic carbon present in the soil expressed in grams C per square meter between 5 and 20 cm depth. NULL values are presented where data are incomplete or not available.

Mukey

mukey

Data

Map unit key is the unique identifier of a record in the Mapunit table. Use this column to join the Component table to the Map Unit table and the Valu1 table to the MapUnitRaster_10m raster map layer to map valu1 themes.

代码

代码语言:javascript复制
var aws0_100 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws0_100');
var aws0_150 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws0_150');
var aws0_20 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws0_20');
var aws0_30 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws0_30');
var aws0_5 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws0_5');
var aws0_999 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws0_999');
var aws100_150 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws100_150');
var aws150_999 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws150_999');
var aws20_50 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws20_50');
var aws50_100 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws50_100');
var aws5_20 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/aws5_20');
var mukey = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/mukey');
var soc0_100 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc0_100');
var soc0_150 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc0_150');
var soc0_20 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc0_20');
var soc0_30 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc0_30');
var soc0_5 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc0_5');
var soc0_999 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc0_999');
var soc100_150 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc100_150');
var soc150_999 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc150_999');
var soc20_50 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc20_50');
var soc50_100 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc50_100');
var soc5_20 = ee.ImageCollection('projects/sat-io/open-datasets/gNATSGO/raster/soc5_20');

代码链接

https://code.earthengine.google.com/?scriptPath=users/sat-io/awesome-gee-catalog-examples:soil-properties/gNATSGO-DATABASE

结果

许可

由美国农业部自然资源保护局 (NRCS) 提供的网格化国家土壤调查地理数据库 (gNATSGO) 中的数据以公共领域许可证(CC0 1.0 通用公共领域专用)提供。 提供者:美国农业部自然资源保护局: 美国农业部自然资源保护局 主持:Microsoft 微软 在 GEE 中的策划: Samapriya Roy Samapriya Roy 关键词 土壤调查, USDA, NRCS, 栅格数据, 格栅数据 最近更新: 2024-08-25

更新日志¶ 已添加 SOC 图层

网址推荐

0代码在线构建地图应用

https://www.mapmost.com/#/?source_inviter=CnVrwIQs

机器学习

https://www.cbedai.net/xg

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