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板栗密植栽培是实现板栗早期丰产,尽快得到效益的栽培模式。密植园便于管理,有利于集约经营,见效早,效益高,只要经营合理,技术到位,是一种非常成功的栽培模式。密植树通过良种嫁接,单位面积产量很快显现,但随着树龄的增长,栗园逐渐郁闭,光照条件恶化,树体开始极性拔高生长,造成管理不便,产量下降。这种情况是目前板栗园存在的普遍问题。短截控冠持续丰产技术就是综合运用各种科学管理措施,专门解决这些问题的有效技术。现介绍如下,供各地参考借鉴。 相似文献
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板栗密植栽培品种选择与控冠技术 总被引:2,自引:0,他引:2
目前板栗栽植向着超密植方向发展 ,株行距 2 m× 3m,667m2可栽 1 1 1株。但根据板栗的生物学特性为阳性乔冠树种 ,因此应选择适宜密植的品种和相应的控冠技术措施 ,从而延长密植园结果的经济寿命 ,实现密植早丰的预期效果。1 品种的选择短枝矮化品种 ,如燕山短枝 (后 2 0、大青叶 ) ,由于该品种节间短 ,树冠矮小 ,可有效延缓栗园郁闭 ,维持 8~ 1 0年的密植丰产条件。早实自然替码品种 ,如替码珍珠 ,自然替码率在结果后可达 2 7.8%以上 ,即有 2 7.8%结果母枝顶端2~ 3芽经冬季自然干枯 ,下部饱满芽萌发的枝条有1 2 %以上当年可以结果 ,其余… 相似文献
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板栗耐干旱、瘠薄、适应性强、经济效益高,是山区栽植的首选经济树种。为探索板栗幼树密植早期丰产栽培技术,我们于1996~2000年进行了板栗幼树密植早期丰产栽培试验,经过5年探索,总结出一套实用的丰产栽培技术操作规程,现介绍如下,供参考。 相似文献
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李树多以毛桃做砧木,树体高大,给密植丰产栽培带来了严重困难。为推广优良品种,提高单位面积产量,必须实施密植栽培,株行距2m×3m,667m2栽植111株。为实现早期丰产,除选择适宜品种外,还需要有相应的配套控冠技术,以延长密植李园的经济寿命。1选择矮化品种如黑琥珀李。该品种节间短,春梢长、秋梢短,树冠矮小,坐果率高,可有效延缓果园郁闭,延长结果年限4~6年。 相似文献
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板栗嫁接幼树强发育枝秋季短截对结棚的影响陈恒坤宋成宏魏振国宋庆桃张献英(山东省莒南县茶果中心276600)(莒南县林业局)板栗良种中绝大部分具有强发育枝休眠期短截几乎不能结果的特性,这对控制板栗结果部位过快外移,增加单位树冠体积结棚量极为不利。为寻求... 相似文献
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通过对密植苹果园的土壤养分进行测定,根据测定结果,进行配方施肥。结果表明,施钾肥能够提高产量、改善果实外观及内在品质,其中以施用NP+K2SO。的配方肥料,对苹果产量的增加效果最好。 相似文献
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Urban warming affects many millions of city dwellers worldwide. The current study evaluated the extent to which trees reduce air and surface temperatures in urban settings across Greater Sydney, Australia. Summertime air and surface temperatures were measured directly in the shade of 470 individual trees planted in three contrasting contexts (parks, nature strips, asphalt) and compared with temperatures in paired adjacent areas receiving full sunlight. Differences between shade and sunlit temperatures were evaluated against measured morphological traits (leaf area index [LAI], clear stem height, crown depth, height and diameter at breast height) for all trees. On average, tree shade reduced mean and maximum air temperatures by 1.1 °C and 3.7 °C, respectively. Temperatures of standardised reference surfaces (black and white tiles and artificial grass) in tree shade were up to 45 °C lower compared to full-sun exposure, and were also lower in parks and nature strips compared to asphalt settings. The surface temperature of shaded natural grass was cooler compared to sunlit natural grass, although this difference did not vary between nature strip and park settings. The magnitude of air and surface temperature reductions due to tree shade was significantly, positively related to tree-level LAI and these relationships were stronger in asphalt and park contexts compared to nature strips. These findings can inform decisions made by urban managers and planners around the selection of tree characteristics to enhance cooling benefits in different contexts, as an important step towards more liveable and resilient cities. 相似文献