以下是通过各种渠道搜集了世界各地的“雌雄同体”以及“连体”蜘蛛照片，可以作为例子来和我手里的这个进行对比。
图片不多 但是每张图片都弥足珍贵，方便了话可以把帖子转发出去让更多的爱好者看到。

以下是一些“雌雄同体”体现的蜘蛛目成员，体现十分明显。
体内的跳蛛为美国中佛罗里达大学保育生物学专业博士生Danny Goodding在Ponce de Leon Springs州立公园发现并拍摄。

以下是“连体”的一些例子，包括背甲完全连体以及不完全连体。

下面开始正题啦！
以下是关于“雌雄同体”的一些相关资料，有兴趣的可以下翻了解，如有翻译不恰当还望纠正。
上面是一些零碎相关资料，原因探究在本条最下方。
Gynandromorphism has been observed in numerous animal species, e.g., crustaceans such as lobsters and crabs, many bird species.A clear example in birds involves gynandromorphic zebra finch. These birds have lateralised brain structures in the face of a common steroid signal, providing strong evidence for a non-hormonal primary sex mechanism regulating brain differentiation.
雌雄同体现象已在许多动物物种中观察到，如甲壳类动物，如龙虾和螃蟹，以及许多鸟类。鸟类中一个明显的例子是雌雄同体斑胸草雀。这些鸟在面对一种常见的类固醇信号时，其大脑结构是偏侧的，这为调节大脑分化的非激素主要性别机制提供了强有力的证据。

A gynandromorph can have bilateral asymmetry—one side female and one side male. Alternatively, the distribution of male and female tissue can be more haphazard.
Bilateral gynandromorphy arises very early in development, typically when the organism has between 8 and 64 cells.Later stages produce a more random pattern.
雌雄同体可以有两侧不对称——一侧为女性，一侧为男性。另外，男性和女性组织的分布可能更加随意。
双侧雌雄同体发生在发育的早期，通常发生在机体有8到64个细胞的时候。后期产生了一个更随机的模式。

以下为原因：
The cause of this phenomenon is typically, but not always, an event in mitosis during early development. While the organism contains only a few cells, one of the dividing cells does not split its sex chromosomes typically. This leads to one of the two cells having sex chromosomes that cause male development and the other cell having chromosomes that cause female development. For example, an XY cell undergoing mitosis duplicates its chromosomes, becoming XXYY. Usually this cell would divide into two XY cells, but in rare occasions the cell may divide into an X cell and an XYY cell. If this happens early in development, then a large portion of the cells are X and a large portion are XYY. Since X and XYY dictate different sexes, the organism has tissue that is female and tissue that is male.
这种现象的原因通常是，但不总是，在有丝分裂的早期发育的事件。虽然这种生物只有几个细胞，但其中一个分裂的细胞通常不会分裂其性染色体。这导致了两个细胞中的一个有导致男性发育的性染色体另一个有导致女性发育的染色体。例如，经历有丝分裂的XY细胞复制染色体，变成XXYY。通常这个细胞会分裂成两个XY细胞，但在极少数情况下，这个细胞会分裂成一个X细胞和一个XYY细胞。如果这发生在发育早期，那么大部分细胞是X，大部分是XYY。由于X和XYY指示不同的性别，生物体有雌性组织和雄性组织。
A developmental network theory of how gynandromorphs develop from a single cell based on internetwork links between parental allelic chromosomes is given in.[10] The major types of gynandromorphs, bilateral, polar and oblique are computationally modeled. Many other possible gynandromorph combinations are computationally modeled, including predicted morphologies yet to be discovered. The article relates gynandromorph developmental control networks to how species may form. The models are based on a computational model of bilateral symmetry.
本文提出了一种基于父母等位染色体间网络连接的单细胞发育网络理论。对双侧、极向和斜向三种主要的两性晶型进行了计算建模。许多其他可能的雌雄同体组合是通过计算建模的，包括尚未发现的预测形态。本文将雌雄同体发育控制网络与物种如何形成联系起来。该模型是基于双边对称的计算模型。

最后来个收尾，说到底我手里这个个体到底是怎么一回事还是一个迷，并没有个十拿九稳的答案，各位吧友如果有自己的想法欢迎积极评论哟。
不管事跳蛛这个领域还是其他生物领域都还有太多未知等我们探索，一起努力吧！