Abstract
Abstract Honey floral origin is determined by the harversting region, but anthropogenic factors as agriculture expansion might modify the environmental flora and consequently honey floral origin. Argentina is one of the most important honey producers worldwide which, since the 1990s, has undergone an important agriculture transformation by the adoption of transgenic crops like soybean (Glycine max). However, little is known about the effects of this anthropogenic activity on the floral origin of honey or the statistical tools that could be used to analyse it. The objective of the present study was to evaluate the impact that these environmental modifications have on the pollen spectrum of honey. In order to achieve this, thirty-two samples of blossom honey were collected from three different ecoregions of the Buenos Aires province: Parana Delta and Islands, Espinal and Pampa, in two different years: 1999 and 2014. The pollen spectrum of honey samples was determined and the data obtained was analysed with multivariate statistical techniques. It could be concluded that the pollen composition of honeys from different ecoregions has significantly changed in the past years because of agriculture expansion and adaptation of transgenic crops (p=0.007). Honey samples harvested in 1999 were characterized by high values of Helianthus annuus, while in 2014 an important presence of Eryngium sp., Gleditsia triacanthos, Baccharis type, Trifolium sp. and Glycine max was observed. The present results show that honey palynological results and multivariate statistical analysis could be used as a preliminary attempt to evaluate environmental modifications.
Highlights
Honey botanical and geographical classification, both of economic importance, are correlated
This probably accounts for the low number of samples used in this preliminary study, and future determinations should evaluate a higher number of honey samples
The significant presence of Eryngium sp., G. triacanthos, Baccharis type, Trifolium sp. and G. max was determined in samples harvested in 2014
Summary
Honey botanical and geographical classification, both of economic importance, are correlated. Aires can be divided into different ecoregions, each with distinctive climate conditions, soil and flora (Patrignani, Lupano, & Conforti, 2016). This important apicultural region is the main agricultural production zone, which during the 1990s suffered an important agriculture transformation by the adoption of transgenic crops and the technology package associated with it. The genetically modified soybeans were introduced in 1996, and since the production has spiked (Leguizamón, 2014). The expansion of this model has been spread
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