Analysis of Agricultural Drought in East Java Using Vegetation Health Index

Agrivita : Journal of Agricultural Science Pub Date : 2018-02-01 DOI:10.17503/AGRIVITA.V40I1.1080

L. F. Amalo, R. Hidayat, S. Sulma

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引用次数: 16

Abstract

Drought is a natural hazard indicated by the decreasing of rainfall and water storage and impacting agricultural sector. Agricultural drought assessment has been used to monitor agricultural sustainability, particularly in East Java as national agricultural production center. Identification of drought characteristics –correlated with El Nino-Southern Oscillation, and agricultural impact on paddy fields and rice production using VHI (Vegetation Health Index) were conducted. VHI is produced by TCI (Temperature Condition Index) and VCI (Vegetation Condition Index) derived from MODIS satellite data, LST (Land Surface Temperature) and EVI (Enhanced Vegetation Index), respectively. The results showed agricultural drought usually started in June, maximum in October and ended in November. Onset and end time drought tends to follow monsoonal rainfall pattern. El Nino 2015 showed long duration of agricultural drought (i.e. ± 5 months), high severity (i.e. mild-extreme drought; VHI 0-40) and areal extent of drought approx. 197,343 km2, while during La Nina 2010 the areal extent was approx. 28,685 km2 with mild-severe drought (VHI 10-40). Impact of agricultural drought on paddy fields showed wider (smaller) areal extent in sub-round 3 (sub-round 1) from September-December (January-April). Areal extent of drought was negatively correlated with rice production (r=-0.79) which significant in 99 % confidence level.

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利用植被健康指数分析东爪哇农业干旱

干旱是一种自然灾害，表现为降雨和蓄水量减少，影响农业部门。农业干旱评估已用于监测农业可持续性，特别是在作为国家农业生产中心的东爪哇。利用植被健康指数(VHI)分析了厄尔尼诺-南方涛动的干旱特征及其对稻田和水稻生产的影响。VHI是由MODIS卫星数据得到的TCI (Temperature Condition Index)和VCI (Vegetation Condition Index)、LST (Land Surface Temperature)和EVI (Enhanced Vegetation Index)生成的。结果显示，农业干旱通常从6月开始，10月最大，11月结束。干旱的始、终期往往遵循季风降水模式。2015年厄尔尼诺现象表现为农业干旱持续时间长(±5个月)，严重程度高(即中极端干旱;VHI 0-40)，面积干旱程度约为。而在2010年拉尼娜现象期间，面积范围约为197,343 km2。28,685平方公里为中度至重度干旱(VHI 10-40)。9 - 12月(1 - 4月)次轮(次轮1)农业干旱对水田的影响面积范围较宽(较小)。干旱面积与水稻产量呈显著负相关(r=-0.79)，在99%的置信水平上呈显著负相关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Agrivita : Journal of Agricultural Science

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