Integration of NDVI Imagery and Crop Coverage Registration System for Apiary Schedule

IF 0.7 4区农林科学 Q4 ENTOMOLOGY

Journal of Apicultural Science Pub Date : 2020-06-01 DOI:10.2478/jas-2020-0011

F. Sarı, I. Kandemir, D. Ceylan

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引用次数: 4

Abstract

Abstract Beekeepers need to establish migratory apiaries to benefit from pollen and nectar source plants as in order to increase honey yield. Thus, following the flowering seasons of honey source plants has vital importance when deciding the route of migration. In this study, MODIS imagery was used to generate weekly NDVI data between 1st April to 31st August 2018, when beekeeping activities start and end in the study area. Although MODIS images have high temporal resolution, low spatial resolution (250 meters) makes them insufficient when deciding the crop types and plants. While detecting plants in natural plant areas requires high spatial resolution NDVI, Crop Coverage Registration System (CCRS) parcel-based crop coverage records can enrich the NDVI data without increasing spatial resolution in agricultural lands. Thus, the CCRS data were integrated with NDVI images for migratory beekeeping in agricultural areas as an innovation. To generate both high temporal and spatial resolution, NDVI and CCRS data were integrated together with a beekeeping suitability map to generate the apiary schedule. The results were verified with 176 existing apiary locations and production dates retrieved from field studies which revealed the existence of three seasons in the study area as early and late apiaries (in natural plant areas) and apiaries in agricultural lands. Accuracy analysis showed that 82% of the apiaries intersected with suitable locations and that apiaries in agricultural areas were detected five days earlier than in field studies and obtained more accurately than natural plant apiaries.

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蜂房时间表NDVI影像与作物覆盖登记系统的整合

摘要养蜂人需要建立迁徙养蜂场，从花粉和花蜜来源的植物中获益，以提高蜂蜜产量。因此，在决定迁徙路线时，遵循蜜源植物的开花季节至关重要。在这项研究中，MODIS图像用于生成2018年4月1日至8月31日期间的每周NDVI数据，当时研究区域的养蜂活动开始和结束。尽管MODIS图像具有高的时间分辨率，但低的空间分辨率（250米）使其在决定作物类型和植物时不够。虽然检测自然植物区的植物需要高空间分辨率的NDVI，但基于作物覆盖登记系统（CCRS）地块的作物覆盖记录可以在不提高农田空间分辨率的情况下丰富NDVI数据。因此，CCRS数据与农业地区迁徙养蜂的NDVI图像相结合是一项创新。为了生成高时间和空间分辨率，将NDVI和CCRS数据与养蜂适宜性地图集成在一起，以生成养蜂时间表。从实地研究中检索到的176个现有养蜂场位置和生产日期验证了这一结果，这些研究揭示了研究区域存在三个季节，即早期和晚期养蜂场（在天然植物区）和农业用地养蜂场。准确度分析表明，82%的养蜂场与合适的地点相交，农业地区的养蜂场比实地研究提前五天被发现，并且比天然植物养蜂场获得的信息更准确。

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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来源期刊

Journal of Apicultural Science ENTOMOLOGY-

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Apicultural Science is a scientific, English-language journal that publishes both original research articles and review papers covering all aspects of the life of bees (superfamily Apoidea) and broadly defined apiculture. The main subject areas include: -bee biology- bee genetics- bee breeding- pathology and toxicology- pollination and bee botany- bee products- management, technologies, and economy- solitary bees and bumblebees