Transpiration-use efficiency of young cactus pear plants (Opuntia ficus-indica L.)

IF 0.7 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY International Journal of Agriculture and Natural Resources Pub Date : 2021-09-06 DOI:10.7764/ijanr.v48i2.2255
Cristián Kremer, C. Faúndez, V. Beyá-Marshall, N. Franck, Víctor Muñoz-Aravena
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Abstract

Opuntia ficus-indica is a versatile crop that is resilient to drought, making it perfect for semiarid to arid zones. However, the lack of knowledge associated with its benefits and the lack of simple crop growth simulation models to determine its potential development, among others, has prevented its expansion. Transpiration-use efficiency (w) has been used to evaluate crop performance under different water supplies; however, the lack of consistency in w values under different environmental conditions has impeded its use as a transferable parameter. To overcome this problem, w is estimated through the normalized water-use efficiency (kDa) and the vapor pressure deficit (Da) as w = kDa Da-1, where kDa is a crop-dependent parameter. Therefore, the goals of this research were (i) to determine w and kDa in young plants of Opuntia ficus-indica and (ii) to compare the obtained parameters with values from other species. The w and kDa results were 18.57 (g kg-1) and 6.48 (g kPa kg-1), respectively. Here, w was more than two to six times the value for traditional cereals (maize, rice, wheat), while kDa was larger than that of most C3 crops and fell in the range for C4 and CAM crops. This is the first study that explicitly determines kDa for Opuntia ficus-indica; hence, more research should be carried out on its estimation, including under different agroclimatic conditions and in later stages of development. As a first approximation, the parameters obtained here can be used as a simple model to estimate yield projections of Opuntia ficus-indica.
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仙人掌梨幼树蒸腾利用效率的研究
仙人掌是一种多功能作物,具有抗旱性,非常适合半干旱至干旱地区。然而,由于缺乏与其益处相关的知识,以及缺乏简单的作物生长模拟模型来确定其潜在发展等因素,阻碍了其扩张。蒸腾利用效率(w)已被用于评估不同供水条件下的作物性能;然而,在不同的环境条件下,w值缺乏一致性,阻碍了它作为一个可转移参数的使用。为了克服这个问题,通过归一化的水利用效率(kDa)和蒸汽压亏空(Da)来估计w为w=kDa-Da-1,其中kDa是作物相关参数。因此,本研究的目的是(i)测定仙人掌幼株中的w和kDa,以及(ii)将获得的参数与其他物种的值进行比较。w和kDa结果分别为18.57(g kg-1)和6.48(g kPa kg-1)。在这里,w是传统谷物(玉米、水稻、小麦)价值的两到六倍多,而kDa比大多数C3作物的价值大,属于C4和CAM作物的范围。这是首次明确确定仙人掌kDa的研究;因此,应该对其估计进行更多的研究,包括在不同的农业气候条件下和发展的后期阶段。作为第一个近似值,这里获得的参数可以作为一个简单的模型来估计仙人掌的产量预测。
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